![Page 1: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/1.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Modeling and ForecastingIntraday Volatility
with Unobserved Component Structures
Gabriele Fiorentini∗ and Christian Macaro∗∗
∗University of Florence∗∗University of Roma Tre and NYU
Preliminary and Incomplete
December 5, 2007
![Page 2: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/2.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Motivation
The availability of UHF data for prices of financial assetshas fostered a bulk of research that makes use of thecontinuously recorded data to deal with different issues.
A non trivial portion of this research focused on themodeling and forecasting of intraday volatility
Forecasts of intraday volatility should assist trading deskoperators and market makers in placing limit orders andrebalancing portfolios
![Page 3: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/3.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Motivation
The availability of UHF data for prices of financial assetshas fostered a bulk of research that makes use of thecontinuously recorded data to deal with different issues.
A non trivial portion of this research focused on themodeling and forecasting of intraday volatility
Forecasts of intraday volatility should assist trading deskoperators and market makers in placing limit orders andrebalancing portfolios
![Page 4: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/4.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Motivation
The availability of UHF data for prices of financial assetshas fostered a bulk of research that makes use of thecontinuously recorded data to deal with different issues.
A non trivial portion of this research focused on themodeling and forecasting of intraday volatility
Forecasts of intraday volatility should assist trading deskoperators and market makers in placing limit orders andrebalancing portfolios
![Page 5: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/5.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Motivation
It has long been recognized that conventional GARCHmodels are unsatisfactory for modeling returns sampled atintraday frequencies mainly because they fail to control forthe pronounced intraday (seasonal) patterns of volatility.
Alternative models have been suggested. In this project webuild on the previous literature and propose a new modelfor intraday volatility that largely borrows from existingproposals.
![Page 6: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/6.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Motivation
It has long been recognized that conventional GARCHmodels are unsatisfactory for modeling returns sampled atintraday frequencies mainly because they fail to control forthe pronounced intraday (seasonal) patterns of volatility.
Alternative models have been suggested. In this project webuild on the previous literature and propose a new modelfor intraday volatility that largely borrows from existingproposals.
![Page 7: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/7.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Proposal
The salient features of our model are
1 The volatility of high frequency returns is assumed todecompose into the product of stochastic components
2 The volatility of high frequency returns is estimated byusing higher frequency tick by tick data
3 The information brought by weakly exogenous variables iseasily incorporated
4 Focus is on stocks but extensions to other financial assetsis straightforward
5 Implementation is simple and the model is apt to be appliedto large data sets
![Page 8: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/8.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Proposal
The salient features of our model are
1 The volatility of high frequency returns is assumed todecompose into the product of stochastic components
2 The volatility of high frequency returns is estimated byusing higher frequency tick by tick data
3 The information brought by weakly exogenous variables iseasily incorporated
4 Focus is on stocks but extensions to other financial assetsis straightforward
5 Implementation is simple and the model is apt to be appliedto large data sets
![Page 9: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/9.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Proposal
The salient features of our model are
1 The volatility of high frequency returns is assumed todecompose into the product of stochastic components
2 The volatility of high frequency returns is estimated byusing higher frequency tick by tick data
3 The information brought by weakly exogenous variables iseasily incorporated
4 Focus is on stocks but extensions to other financial assetsis straightforward
5 Implementation is simple and the model is apt to be appliedto large data sets
![Page 10: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/10.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Proposal
The salient features of our model are
1 The volatility of high frequency returns is assumed todecompose into the product of stochastic components
2 The volatility of high frequency returns is estimated byusing higher frequency tick by tick data
3 The information brought by weakly exogenous variables iseasily incorporated
4 Focus is on stocks but extensions to other financial assetsis straightforward
5 Implementation is simple and the model is apt to be appliedto large data sets
![Page 11: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/11.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Proposal
The salient features of our model are
1 The volatility of high frequency returns is assumed todecompose into the product of stochastic components
2 The volatility of high frequency returns is estimated byusing higher frequency tick by tick data
3 The information brought by weakly exogenous variables iseasily incorporated
4 Focus is on stocks but extensions to other financial assetsis straightforward
5 Implementation is simple and the model is apt to be appliedto large data sets
![Page 12: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/12.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Proposal
The salient features of our model are
1 The volatility of high frequency returns is assumed todecompose into the product of stochastic components
2 The volatility of high frequency returns is estimated byusing higher frequency tick by tick data
3 The information brought by weakly exogenous variables iseasily incorporated
4 Focus is on stocks but extensions to other financial assetsis straightforward
5 Implementation is simple and the model is apt to be appliedto large data sets
![Page 13: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/13.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Related Literature
Andersen and Bollerslev 1997 JoEF, 1997 JoF, 1998 JoFGhose and Kroner 1996Taylor and Xu 1997 JoEFAndersen, Bollerslev and Das 2001 JoFGiot 2005 EJoFEngle, Sokalska and Chanda 2006Deo, Hurvich and Lu 2006 JoEDacorogna, Gencay, Muller, Olsen and Pictet 2001Beltratti and Morana 2001 EN
Mian and Adam 2001 AFEMartens, Chang and Taylor 2002 JoFRWorthington 2003Aradhyula and Ergun 2004 AFEMcMillan and Speight 2004 AFEWongswan 2006 RoFS
![Page 14: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/14.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Related Literature
Andersen and Bollerslev 1997 JoEF, 1997 JoF, 1998 JoFGhose and Kroner 1996Taylor and Xu 1997 JoEFAndersen, Bollerslev and Das 2001 JoFGiot 2005 EJoFEngle, Sokalska and Chanda 2006Deo, Hurvich and Lu 2006 JoEDacorogna, Gencay, Muller, Olsen and Pictet 2001Beltratti and Morana 2001 EN
Mian and Adam 2001 AFEMartens, Chang and Taylor 2002 JoFRWorthington 2003Aradhyula and Ergun 2004 AFEMcMillan and Speight 2004 AFEWongswan 2006 RoFS
![Page 15: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/15.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 16: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/16.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 17: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/17.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 18: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/18.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 19: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/19.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 20: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/20.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 21: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/21.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 22: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/22.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Notation
Let t = 1, . . . ,T denote days in the sampleEach day is divided into M intervals
Return in interval j of day t is defined as
Rt ,j = log Prct ,j − log Prct ,j−1 (t = 1, . . . ,T ) (j = 1, . . . ,M)
E.g. for NYSE stocks
if M = 12⇒ Rt ,j are 30-minute returnsif M = 36⇒ Rt ,j are 10-minute returns
Overnight returns are dropped and the total number ofobservations is T × N
![Page 23: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/23.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Model
We assume that Rt ,j = σt ,j zt ,j zt ,j i.i.d. ∼ (0,1)
We further assume that σt ,j can be decomposed into
the product of components. Specifically
σt ,j = Pt ,j St ,j Ut ,j
where
P is the persistent component of volatility
S is the intraday (seasonal) periodic factor
U is the short-term irregular intraday factor
![Page 24: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/24.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Model
We assume that Rt ,j = σt ,j zt ,j zt ,j i.i.d. ∼ (0,1)
We further assume that σt ,j can be decomposed into
the product of components. Specifically
σt ,j = Pt ,j St ,j Ut ,j
where
P is the persistent component of volatility
S is the intraday (seasonal) periodic factor
U is the short-term irregular intraday factor
![Page 25: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/25.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Model
We assume that Rt ,j = σt ,j zt ,j zt ,j i.i.d. ∼ (0,1)
We further assume that σt ,j can be decomposed into
the product of components. Specifically
σt ,j = Pt ,j St ,j Ut ,j
where
P is the persistent component of volatility
S is the intraday (seasonal) periodic factor
U is the short-term irregular intraday factor
![Page 26: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/26.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Model
We assume that Rt ,j = σt ,j zt ,j zt ,j i.i.d. ∼ (0,1)
We further assume that σt ,j can be decomposed into
the product of components. Specifically
σt ,j = Pt ,j St ,j Ut ,j
where
P is the persistent component of volatility
S is the intraday (seasonal) periodic factor
U is the short-term irregular intraday factor
![Page 27: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/27.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Model
We assume that Rt ,j = σt ,j zt ,j zt ,j i.i.d. ∼ (0,1)
We further assume that σt ,j can be decomposed into
the product of components. Specifically
σt ,j = Pt ,j St ,j Ut ,j
where
P is the persistent component of volatility
S is the intraday (seasonal) periodic factor
U is the short-term irregular intraday factor
![Page 28: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/28.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Model
We assume that Rt ,j = σt ,j zt ,j zt ,j i.i.d. ∼ (0,1)
We further assume that σt ,j can be decomposed into
the product of components. Specifically
σt ,j = Pt ,j St ,j Ut ,j
where
P is the persistent component of volatility
S is the intraday (seasonal) periodic factor
U is the short-term irregular intraday factor
![Page 29: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/29.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Remarks σt ,j = Pt ,j St ,j Ut ,j
– Notice that each component is indexed by t and j
– Many popular models for high frequency volatility can bewritten in this unobserved component framework
– In A&B(97,98,...) and ESC(06) Pt ,j depends only on t .
P2t ,j =
σ2t
M , where σ2t is daily volatility (e.g. from a GARCH model)
– In G&K(96) and ESC(06) S2t ,j = S2
j = 1T∑T
t=1 R?2t ,j .
where R?t,j = Rt,j/σt
– In the FFF approach of A&B St ,j may either depend only onj or also on t via the interaction with the daily component.
– In T&X(97) St ,j depends on j and also on t but only for theday of the week effect
![Page 30: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/30.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Remarks σt ,j = Pt ,j St ,j Ut ,j
– Notice that each component is indexed by t and j
– Many popular models for high frequency volatility can bewritten in this unobserved component framework
– In A&B(97,98,...) and ESC(06) Pt ,j depends only on t .
P2t ,j =
σ2t
M , where σ2t is daily volatility (e.g. from a GARCH model)
– In G&K(96) and ESC(06) S2t ,j = S2
j = 1T∑T
t=1 R?2t ,j .
where R?t,j = Rt,j/σt
– In the FFF approach of A&B St ,j may either depend only onj or also on t via the interaction with the daily component.
– In T&X(97) St ,j depends on j and also on t but only for theday of the week effect
![Page 31: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/31.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Remarks σt ,j = Pt ,j St ,j Ut ,j
– Notice that each component is indexed by t and j
– Many popular models for high frequency volatility can bewritten in this unobserved component framework
– In A&B(97,98,...) and ESC(06) Pt ,j depends only on t .
P2t ,j =
σ2t
M , where σ2t is daily volatility (e.g. from a GARCH model)
– In G&K(96) and ESC(06) S2t ,j = S2
j = 1T∑T
t=1 R?2t ,j .
where R?t,j = Rt,j/σt
– In the FFF approach of A&B St ,j may either depend only onj or also on t via the interaction with the daily component.
– In T&X(97) St ,j depends on j and also on t but only for theday of the week effect
![Page 32: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/32.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Remarks σt ,j = Pt ,j St ,j Ut ,j
– Notice that each component is indexed by t and j
– Many popular models for high frequency volatility can bewritten in this unobserved component framework
– In A&B(97,98,...) and ESC(06) Pt ,j depends only on t .
P2t ,j =
σ2t
M , where σ2t is daily volatility (e.g. from a GARCH model)
– In G&K(96) and ESC(06) S2t ,j = S2
j = 1T∑T
t=1 R?2t ,j .
where R?t,j = Rt,j/σt
– In the FFF approach of A&B St ,j may either depend only onj or also on t via the interaction with the daily component.
– In T&X(97) St ,j depends on j and also on t but only for theday of the week effect
![Page 33: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/33.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Remarks σt ,j = Pt ,j St ,j Ut ,j
– Notice that each component is indexed by t and j
– Many popular models for high frequency volatility can bewritten in this unobserved component framework
– In A&B(97,98,...) and ESC(06) Pt ,j depends only on t .
P2t ,j =
σ2t
M , where σ2t is daily volatility (e.g. from a GARCH model)
– In G&K(96) and ESC(06) S2t ,j = S2
j = 1T∑T
t=1 R?2t ,j .
where R?t,j = Rt,j/σt
– In the FFF approach of A&B St ,j may either depend only onj or also on t via the interaction with the daily component.
– In T&X(97) St ,j depends on j and also on t but only for theday of the week effect
![Page 34: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/34.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Remarks σt ,j = Pt ,j St ,j Ut ,j
– Notice that each component is indexed by t and j
– Many popular models for high frequency volatility can bewritten in this unobserved component framework
– In A&B(97,98,...) and ESC(06) Pt ,j depends only on t .
P2t ,j =
σ2t
M , where σ2t is daily volatility (e.g. from a GARCH model)
– In G&K(96) and ESC(06) S2t ,j = S2
j = 1T∑T
t=1 R?2t ,j .
where R?t,j = Rt,j/σt
– In the FFF approach of A&B St ,j may either depend only onj or also on t via the interaction with the daily component.
– In T&X(97) St ,j depends on j and also on t but only for theday of the week effect
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Introduction Model & Notation Estimation Forecasting Empirical Application
Specification
We assume that logσt ,j and its components follow somestochastic linear processes (augmented with regressors)
The model can then be written in two related ways.
1 Arima Model Based (AMB) decomposition: Specify ageneral REG-AR(F)IMA model for logσt ,j and derivecompatible models for the components.
2 Structural Time Series (STS) model à la Harvey: Use aState-Space formulation in which the models for thecomponents are specified directly.
The two approaches are equivalent and differ only for theestimation (filtering-smoothing) algorithm (W-K vs. Kalman)and, sometimes, for the identification assumptions.
![Page 36: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/36.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Specification
We assume that logσt ,j and its components follow somestochastic linear processes (augmented with regressors)
The model can then be written in two related ways.
1 Arima Model Based (AMB) decomposition: Specify ageneral REG-AR(F)IMA model for logσt ,j and derivecompatible models for the components.
2 Structural Time Series (STS) model à la Harvey: Use aState-Space formulation in which the models for thecomponents are specified directly.
The two approaches are equivalent and differ only for theestimation (filtering-smoothing) algorithm (W-K vs. Kalman)and, sometimes, for the identification assumptions.
![Page 37: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/37.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Specification
We assume that logσt ,j and its components follow somestochastic linear processes (augmented with regressors)
The model can then be written in two related ways.
1 Arima Model Based (AMB) decomposition: Specify ageneral REG-AR(F)IMA model for logσt ,j and derivecompatible models for the components.
2 Structural Time Series (STS) model à la Harvey: Use aState-Space formulation in which the models for thecomponents are specified directly.
The two approaches are equivalent and differ only for theestimation (filtering-smoothing) algorithm (W-K vs. Kalman)and, sometimes, for the identification assumptions.
![Page 38: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/38.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Specification
We assume that logσt ,j and its components follow somestochastic linear processes (augmented with regressors)
The model can then be written in two related ways.
1 Arima Model Based (AMB) decomposition: Specify ageneral REG-AR(F)IMA model for logσt ,j and derivecompatible models for the components.
2 Structural Time Series (STS) model à la Harvey: Use aState-Space formulation in which the models for thecomponents are specified directly.
The two approaches are equivalent and differ only for theestimation (filtering-smoothing) algorithm (W-K vs. Kalman)and, sometimes, for the identification assumptions.
![Page 39: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/39.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Specification
We assume that logσt ,j and its components follow somestochastic linear processes (augmented with regressors)
The model can then be written in two related ways.
1 Arima Model Based (AMB) decomposition: Specify ageneral REG-AR(F)IMA model for logσt ,j and derivecompatible models for the components.
2 Structural Time Series (STS) model à la Harvey: Use aState-Space formulation in which the models for thecomponents are specified directly.
The two approaches are equivalent and differ only for theestimation (filtering-smoothing) algorithm (W-K vs. Kalman)and, sometimes, for the identification assumptions.
![Page 40: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/40.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Specification
We assume that logσt ,j and its components follow somestochastic linear processes (augmented with regressors)
The model can then be written in two related ways.
1 Arima Model Based (AMB) decomposition: Specify ageneral REG-AR(F)IMA model for logσt ,j and derivecompatible models for the components.
2 Structural Time Series (STS) model à la Harvey: Use aState-Space formulation in which the models for thecomponents are specified directly.
The two approaches are equivalent and differ only for theestimation (filtering-smoothing) algorithm (W-K vs. Kalman)and, sometimes, for the identification assumptions.
![Page 41: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/41.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Specification
logσt ,j = pt ,j + st ,j + ut ,j = logσ?t ,j + f (Xt ,j , β)
logσ?t ,j = p?t ,j + s?t ,j + u?t ,j
Φ(L)[logσt ,j − f (Xt ,j , β)
]= Φ(L) logσ?t ,j = Θ(L)at ,j
Φp(L)p?t,j = Θp(L)aP t,j ; Φs(L)s?
t,j = Θs(L)aS t,j ; Φu(L)u?t,j = Θu(L)aU t,j ;
where f (Xt,j , β) is a known regression function of weakly exogenousvariables Xt,j and unknown coefficients β.
Φ•(L) and Θ•(L) are polynomials in the lag operator L with
Φ(L) = Φp(L)Φs(L)Φu(L)
Θ(L)at = Θp(L)Φs(L)Φu(L)aP t,j +Θs(L)Φp(L)Φu(L)aS t,j +Θu(L)Φp(L)Φs(L)aU t,j
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Specification
logσt ,j = pt ,j + st ,j + ut ,j = logσ?t ,j + f (Xt ,j , β)
logσ?t ,j = p?t ,j + s?t ,j + u?t ,j
Φ(L)[logσt ,j − f (Xt ,j , β)
]= Φ(L) logσ?t ,j = Θ(L)at ,j
Φp(L)p?t,j = Θp(L)aP t,j ; Φs(L)s?
t,j = Θs(L)aS t,j ; Φu(L)u?t,j = Θu(L)aU t,j ;
where f (Xt,j , β) is a known regression function of weakly exogenousvariables Xt,j and unknown coefficients β.
Φ•(L) and Θ•(L) are polynomials in the lag operator L with
Φ(L) = Φp(L)Φs(L)Φu(L)
Θ(L)at = Θp(L)Φs(L)Φu(L)aP t,j +Θs(L)Φp(L)Φu(L)aS t,j +Θu(L)Φp(L)Φs(L)aU t,j
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Specification
logσt ,j = pt ,j + st ,j + ut ,j = logσ?t ,j + f (Xt ,j , β)
logσ?t ,j = p?t ,j + s?t ,j + u?t ,j
Φ(L)[logσt ,j − f (Xt ,j , β)
]= Φ(L) logσ?t ,j = Θ(L)at ,j
Φp(L)p?t,j = Θp(L)aP t,j ; Φs(L)s?
t,j = Θs(L)aS t,j ; Φu(L)u?t,j = Θu(L)aU t,j ;
where f (Xt,j , β) is a known regression function of weakly exogenousvariables Xt,j and unknown coefficients β.
Φ•(L) and Θ•(L) are polynomials in the lag operator L with
Φ(L) = Φp(L)Φs(L)Φu(L)
Θ(L)at = Θp(L)Φs(L)Φu(L)aP t,j +Θs(L)Φp(L)Φu(L)aS t,j +Θu(L)Φp(L)Φs(L)aU t,j
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Specification
logσt ,j = pt ,j + st ,j + ut ,j = logσ?t ,j + f (Xt ,j , β)
logσ?t ,j = p?t ,j + s?t ,j + u?t ,j
Φ(L)[logσt ,j − f (Xt ,j , β)
]= Φ(L) logσ?t ,j = Θ(L)at ,j
Φp(L)p?t,j = Θp(L)aP t,j ; Φs(L)s?
t,j = Θs(L)aS t,j ; Φu(L)u?t,j = Θu(L)aU t,j ;
where f (Xt,j , β) is a known regression function of weakly exogenousvariables Xt,j and unknown coefficients β.
Φ•(L) and Θ•(L) are polynomials in the lag operator L with
Φ(L) = Φp(L)Φs(L)Φu(L)
Θ(L)at = Θp(L)Φs(L)Φu(L)aP t,j +Θs(L)Φp(L)Φu(L)aS t,j +Θu(L)Φp(L)Φs(L)aU t,j
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Specification
logσt ,j = pt ,j + st ,j + ut ,j = logσ?t ,j + f (Xt ,j , β)
logσ?t ,j = p?t ,j + s?t ,j + u?t ,j
Φ(L)[logσt ,j − f (Xt ,j , β)
]= Φ(L) logσ?t ,j = Θ(L)at ,j
Φp(L)p?t,j = Θp(L)aP t,j ; Φs(L)s?
t,j = Θs(L)aS t,j ; Φu(L)u?t,j = Θu(L)aU t,j ;
where f (Xt,j , β) is a known regression function of weakly exogenousvariables Xt,j and unknown coefficients β.
Φ•(L) and Θ•(L) are polynomials in the lag operator L with
Φ(L) = Φp(L)Φs(L)Φu(L)
Θ(L)at = Θp(L)Φs(L)Φu(L)aP t,j +Θs(L)Φp(L)Φu(L)aS t,j +Θu(L)Φp(L)Φs(L)aU t,j
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Specification
logσt ,j = pt ,j + st ,j + ut ,j = logσ?t ,j + f (Xt ,j , β)
logσ?t ,j = p?t ,j + s?t ,j + u?t ,j
Φ(L)[logσt ,j − f (Xt ,j , β)
]= Φ(L) logσ?t ,j = Θ(L)at ,j
Φp(L)p?t,j = Θp(L)aP t,j ; Φs(L)s?
t,j = Θs(L)aS t,j ; Φu(L)u?t,j = Θu(L)aU t,j ;
where f (Xt,j , β) is a known regression function of weakly exogenousvariables Xt,j and unknown coefficients β.
Φ•(L) and Θ•(L) are polynomials in the lag operator L with
Φ(L) = Φp(L)Φs(L)Φu(L)
Θ(L)at = Θp(L)Φs(L)Φu(L)aP t,j +Θs(L)Φp(L)Φu(L)aS t,j +Θu(L)Φp(L)Φs(L)aU t,j
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Identification
Consider the following set of sufficient identificationassumptions
1 Factorization of Φ(L) into Φp(L)Φs(L)Φu(L) isstraightforward and is obtained through a simple rootallocation.
2 Orthogonality of components p? ⊥ s? ⊥ u?
3 Canonical decomposition: The model for the componentsare balanced and Var(aP t ,j) and Var(aS t ,j) are chosen assmall as possible. In this way p? and s? are termedcanonical components.
Remark: For any other admissible choice of, say, Var(aS t,j ) thecorresponding periodic component can be written as the sum ofthe canonical one plus an uncorrelated white noise. (Hillmer andTiao 1982)
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Identification
Consider the following set of sufficient identificationassumptions
1 Factorization of Φ(L) into Φp(L)Φs(L)Φu(L) isstraightforward and is obtained through a simple rootallocation.
2 Orthogonality of components p? ⊥ s? ⊥ u?
3 Canonical decomposition: The model for the componentsare balanced and Var(aP t ,j) and Var(aS t ,j) are chosen assmall as possible. In this way p? and s? are termedcanonical components.
Remark: For any other admissible choice of, say, Var(aS t,j ) thecorresponding periodic component can be written as the sum ofthe canonical one plus an uncorrelated white noise. (Hillmer andTiao 1982)
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Identification
Consider the following set of sufficient identificationassumptions
1 Factorization of Φ(L) into Φp(L)Φs(L)Φu(L) isstraightforward and is obtained through a simple rootallocation.
2 Orthogonality of components p? ⊥ s? ⊥ u?
3 Canonical decomposition: The model for the componentsare balanced and Var(aP t ,j) and Var(aS t ,j) are chosen assmall as possible. In this way p? and s? are termedcanonical components.
Remark: For any other admissible choice of, say, Var(aS t,j ) thecorresponding periodic component can be written as the sum ofthe canonical one plus an uncorrelated white noise. (Hillmer andTiao 1982)
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Identification
Consider the following set of sufficient identificationassumptions
1 Factorization of Φ(L) into Φp(L)Φs(L)Φu(L) isstraightforward and is obtained through a simple rootallocation.
2 Orthogonality of components p? ⊥ s? ⊥ u?
3 Canonical decomposition: The model for the componentsare balanced and Var(aP t ,j) and Var(aS t ,j) are chosen assmall as possible. In this way p? and s? are termedcanonical components.
Remark: For any other admissible choice of, say, Var(aS t,j ) thecorresponding periodic component can be written as the sum ofthe canonical one plus an uncorrelated white noise. (Hillmer andTiao 1982)
![Page 51: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/51.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Example: Quarterly Airline Model
Example: Consider the following typical model for quarterlydata
(1− L)(1− L4)Yt = (1 + θ1L)(1 + θ4L4)at
Yt = Trend + Seasonal + Noise
TREND: (1− 2L + L2)pt = (1 + θp1L + θp2L2)ap t
SEASONAL: (1 + L + L2 + L3)st = (1 + θs1L + θs2L2 + θs3L3)as t
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Example: Quarterly Airline Model
Example: Consider the following typical model for quarterlydata
(1− L)(1− L4)Yt = (1 + θ1L)(1 + θ4L4)at
Yt = Trend + Seasonal + Noise
TREND: (1− 2L + L2)pt = (1 + θp1L + θp2L2)ap t
SEASONAL: (1 + L + L2 + L3)st = (1 + θs1L + θs2L2 + θs3L3)as t
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Example: Quarterly Airline Model
Example: Consider the following typical model for quarterlydata
(1− L)(1− L4)Yt = (1 + θ1L)(1 + θ4L4)at
Yt = Trend + Seasonal + Noise
TREND: (1− 2L + L2)pt = (1 + θp1L + θp2L2)ap t
SEASONAL: (1 + L + L2 + L3)st = (1 + θs1L + θs2L2 + θs3L3)as t
![Page 54: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/54.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Example: Quarterly Airline Model
Example: Consider the following typical model for quarterlydata
(1− L)(1− L4)Yt = (1 + θ1L)(1 + θ4L4)at
Yt = Trend + Seasonal + Noise
TREND: (1− 2L + L2)pt = (1 + θp1L + θp2L2)ap t
SEASONAL: (1 + L + L2 + L3)st = (1 + θs1L + θs2L2 + θs3L3)as t
![Page 55: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/55.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Example: Quarterly Airline Model
0 0.5 1 1.5 2 2.5 30
0.2
0.4
0.6
0.8
1
1.2
θ1 = -0.1 θ
4 = -0.3
Pseudo-Spectra of Series and Components
SERIESTRENDSEASONALNOISE
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Introduction Model & Notation Estimation Forecasting Empirical Application
AMB Example: Quarterly Airline Model
0 0.5 1 1.5 2 2.5 30
0.2
0.4
0.6
0.8
1
1.2
θ1 = -0.1 θ
4 = -0.3
Pseudo-Spectra of Series and (Canonical) Components
SERIESTRENDSEASONALNOISECAN. TRENDCAN. SEASONALCAN. NOISE
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Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
Suppose that each one of the M intervals is furtherpartitioned into N sub-intervals.Return in sub-interval i of bin j of day t is defined as
Rt ,j,i (t = 1, . . . ,T ) (j = 1, . . . ,M), (i = 1, . . . ,N)
E.g. for NYSEif M = 12 and N = 30⇒ Rt ,j,i are 1-minute returnsif M = 36 and N = 20⇒ Rt ,j,i are half-minute returns
We can, thus, define an estimator of σ2t ,j based on some
realized measure that uses N observations.
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Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
Suppose that each one of the M intervals is furtherpartitioned into N sub-intervals.Return in sub-interval i of bin j of day t is defined as
Rt ,j,i (t = 1, . . . ,T ) (j = 1, . . . ,M), (i = 1, . . . ,N)
E.g. for NYSEif M = 12 and N = 30⇒ Rt ,j,i are 1-minute returnsif M = 36 and N = 20⇒ Rt ,j,i are half-minute returns
We can, thus, define an estimator of σ2t ,j based on some
realized measure that uses N observations.
![Page 59: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/59.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
Suppose that each one of the M intervals is furtherpartitioned into N sub-intervals.Return in sub-interval i of bin j of day t is defined as
Rt ,j,i (t = 1, . . . ,T ) (j = 1, . . . ,M), (i = 1, . . . ,N)
E.g. for NYSEif M = 12 and N = 30⇒ Rt ,j,i are 1-minute returnsif M = 36 and N = 20⇒ Rt ,j,i are half-minute returns
We can, thus, define an estimator of σ2t ,j based on some
realized measure that uses N observations.
![Page 60: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/60.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
Suppose that each one of the M intervals is furtherpartitioned into N sub-intervals.Return in sub-interval i of bin j of day t is defined as
Rt ,j,i (t = 1, . . . ,T ) (j = 1, . . . ,M), (i = 1, . . . ,N)
E.g. for NYSEif M = 12 and N = 30⇒ Rt ,j,i are 1-minute returnsif M = 36 and N = 20⇒ Rt ,j,i are half-minute returns
We can, thus, define an estimator of σ2t ,j based on some
realized measure that uses N observations.
![Page 61: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/61.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
Suppose that each one of the M intervals is furtherpartitioned into N sub-intervals.Return in sub-interval i of bin j of day t is defined as
Rt ,j,i (t = 1, . . . ,T ) (j = 1, . . . ,M), (i = 1, . . . ,N)
E.g. for NYSEif M = 12 and N = 30⇒ Rt ,j,i are 1-minute returnsif M = 36 and N = 20⇒ Rt ,j,i are half-minute returns
We can, thus, define an estimator of σ2t ,j based on some
realized measure that uses N observations.
![Page 62: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/62.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
Suppose that each one of the M intervals is furtherpartitioned into N sub-intervals.Return in sub-interval i of bin j of day t is defined as
Rt ,j,i (t = 1, . . . ,T ) (j = 1, . . . ,M), (i = 1, . . . ,N)
E.g. for NYSEif M = 12 and N = 30⇒ Rt ,j,i are 1-minute returnsif M = 36 and N = 20⇒ Rt ,j,i are half-minute returns
We can, thus, define an estimator of σ2t ,j based on some
realized measure that uses N observations.
![Page 63: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/63.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
Suppose that each one of the M intervals is furtherpartitioned into N sub-intervals.Return in sub-interval i of bin j of day t is defined as
Rt ,j,i (t = 1, . . . ,T ) (j = 1, . . . ,M), (i = 1, . . . ,N)
E.g. for NYSEif M = 12 and N = 30⇒ Rt ,j,i are 1-minute returnsif M = 36 and N = 20⇒ Rt ,j,i are half-minute returns
We can, thus, define an estimator of σ2t ,j based on some
realized measure that uses N observations.
![Page 64: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/64.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
For example to keep matters simple consider realizedvolatility
σ2t ,j =
N∑i=1
R2t ,j,i
In principle we could take M as large as desired and letN →∞
In practice there are limits to the benefits attainable fromUHF data and M × N cannot be too large
![Page 65: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/65.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
For example to keep matters simple consider realizedvolatility
σ2t ,j =
N∑i=1
R2t ,j,i
In principle we could take M as large as desired and letN →∞
In practice there are limits to the benefits attainable fromUHF data and M × N cannot be too large
![Page 66: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/66.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of σ2t ,j
For example to keep matters simple consider realizedvolatility
σ2t ,j =
N∑i=1
R2t ,j,i
In principle we could take M as large as desired and letN →∞
In practice there are limits to the benefits attainable fromUHF data and M × N cannot be too large
![Page 67: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/67.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 68: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/68.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 69: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/69.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 70: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/70.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 71: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/71.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 72: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/72.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 73: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/73.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 74: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/74.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
REGARIMA specification and estimation
Let lrvt ,j = 12 log σ2
t ,j . We specify and estimate the model
Φ(L)[lrvt ,j − f (Xt ,j , β)
]= Φ(L)lrv?t ,j = Θ(L)at ,j
Regression variables Xt,j may include:
1) Macro and sector/firm specific announcement variables
2) Day of the week dummies3) (A non-negative function of) Overnight returns
M regressors or 1 regressor with distributed effects
4) Detected outliers AO and TC
5) . . .
Model is identified with BIC and estimated by PML
![Page 75: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/75.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of Components
Next, we derive the (canonical) models for the components thatcan be estimated by linear projections with the Wiener -Kolmogorov symmetric filter
p?t ,j = WKp(L) lrv?(E)
t ,j
where lrv?(E)
t ,j is the series extended with forecasts andbackcasts
WKp(L) =Θp(L)Θp(L−1)
Φp(L)Φp(L−1)
Φ(L)Φ(L−1)
Θ(L)Θ(L−1)
The frequency domain representation of the filter is given bythe Ratio of Spectra. Thus the squared gain will always be lessor equal than one and proportional to the relative power of thecomponent spectrum.
![Page 76: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/76.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of Components
Next, we derive the (canonical) models for the components thatcan be estimated by linear projections with the Wiener -Kolmogorov symmetric filter
p?t ,j = WKp(L) lrv?(E)
t ,j
where lrv?(E)
t ,j is the series extended with forecasts andbackcasts
WKp(L) =Θp(L)Θp(L−1)
Φp(L)Φp(L−1)
Φ(L)Φ(L−1)
Θ(L)Θ(L−1)
The frequency domain representation of the filter is given bythe Ratio of Spectra. Thus the squared gain will always be lessor equal than one and proportional to the relative power of thecomponent spectrum.
![Page 77: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/77.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of Components
The estimated regression effects are assigned to thecomponents according to their properties.
Forecasts of the components are also readily obtained
Finally the multiplicative factors Pt ,j , St ,j and Ut ,j are computed
Remark: When the intraday periodic component of volatility ispronounced and the “seasonal” factors are large, a biascorrection is needed to correct the underestimation of the“seasonally adjusted” volatility caused by the fact thatgeometric means underestimate arithmetic means.
![Page 78: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/78.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of Components
The estimated regression effects are assigned to thecomponents according to their properties.
Forecasts of the components are also readily obtained
Finally the multiplicative factors Pt ,j , St ,j and Ut ,j are computed
Remark: When the intraday periodic component of volatility ispronounced and the “seasonal” factors are large, a biascorrection is needed to correct the underestimation of the“seasonally adjusted” volatility caused by the fact thatgeometric means underestimate arithmetic means.
![Page 79: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/79.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of Components
The estimated regression effects are assigned to thecomponents according to their properties.
Forecasts of the components are also readily obtained
Finally the multiplicative factors Pt ,j , St ,j and Ut ,j are computed
Remark: When the intraday periodic component of volatility ispronounced and the “seasonal” factors are large, a biascorrection is needed to correct the underestimation of the“seasonally adjusted” volatility caused by the fact thatgeometric means underestimate arithmetic means.
![Page 80: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/80.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Estimation of Components
The estimated regression effects are assigned to thecomponents according to their properties.
Forecasts of the components are also readily obtained
Finally the multiplicative factors Pt ,j , St ,j and Ut ,j are computed
Remark: When the intraday periodic component of volatility ispronounced and the “seasonal” factors are large, a biascorrection is needed to correct the underestimation of the“seasonally adjusted” volatility caused by the fact thatgeometric means underestimate arithmetic means.
![Page 81: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/81.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Methods
We consider alternative forecasting methods
1) Forecast directly lrvt ,j with the REG-ARIMA model
2) Use the AMB decomposition to compute forecasts of theintraday periodic factor St ,j and of the persistentcomponent Pt ,j . Next, apply a GARCH type model to thestandardized returns Rt ,j/(Pt ,jSt ,j).
3) Same as method 2) but the forecast of the persistentcomponent is computed from:
A) GARCH type model on daily dataB) Forecasts of daily realized volatility
![Page 82: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/82.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Methods
We consider alternative forecasting methods
1) Forecast directly lrvt ,j with the REG-ARIMA model
2) Use the AMB decomposition to compute forecasts of theintraday periodic factor St ,j and of the persistentcomponent Pt ,j . Next, apply a GARCH type model to thestandardized returns Rt ,j/(Pt ,jSt ,j).
3) Same as method 2) but the forecast of the persistentcomponent is computed from:
A) GARCH type model on daily dataB) Forecasts of daily realized volatility
![Page 83: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/83.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Methods
We consider alternative forecasting methods
1) Forecast directly lrvt ,j with the REG-ARIMA model
2) Use the AMB decomposition to compute forecasts of theintraday periodic factor St ,j and of the persistentcomponent Pt ,j . Next, apply a GARCH type model to thestandardized returns Rt ,j/(Pt ,jSt ,j).
3) Same as method 2) but the forecast of the persistentcomponent is computed from:
A) GARCH type model on daily dataB) Forecasts of daily realized volatility
![Page 84: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/84.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Methods
We consider alternative forecasting methods
1) Forecast directly lrvt ,j with the REG-ARIMA model
2) Use the AMB decomposition to compute forecasts of theintraday periodic factor St ,j and of the persistentcomponent Pt ,j . Next, apply a GARCH type model to thestandardized returns Rt ,j/(Pt ,jSt ,j).
3) Same as method 2) but the forecast of the persistentcomponent is computed from:
A) GARCH type model on daily dataB) Forecasts of daily realized volatility
![Page 85: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/85.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Methods
We consider alternative forecasting methods
1) Forecast directly lrvt ,j with the REG-ARIMA model
2) Use the AMB decomposition to compute forecasts of theintraday periodic factor St ,j and of the persistentcomponent Pt ,j . Next, apply a GARCH type model to thestandardized returns Rt ,j/(Pt ,jSt ,j).
3) Same as method 2) but the forecast of the persistentcomponent is computed from:
A) GARCH type model on daily dataB) Forecasts of daily realized volatility
![Page 86: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/86.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Comparisons
Method 3) is analogous to Engle Sokalska and Chanda (2006)(ESC). Differences are confined to the estimation andforecasting of the intraday periodic (diurnal) factors.
An FFF based alternative to Method 3) can also be formulated
ESC and the FFF based variation are used as benchmarksagainst which we test the forecasting performance of ourmodel.
![Page 87: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/87.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Comparisons
Method 3) is analogous to Engle Sokalska and Chanda (2006)(ESC). Differences are confined to the estimation andforecasting of the intraday periodic (diurnal) factors.
An FFF based alternative to Method 3) can also be formulated
ESC and the FFF based variation are used as benchmarksagainst which we test the forecasting performance of ourmodel.
![Page 88: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/88.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Forecasting Comparisons
Method 3) is analogous to Engle Sokalska and Chanda (2006)(ESC). Differences are confined to the estimation andforecasting of the intraday periodic (diurnal) factors.
An FFF based alternative to Method 3) can also be formulated
ESC and the FFF based variation are used as benchmarksagainst which we test the forecasting performance of ourmodel.
![Page 89: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/89.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
NYSE quotes for BOEING, EXXON, GENERAL ELECTRIC andIBM are obtained from the TAQ database
Data spans a 16-month period in January 2006 - April 2007
Monday July 3rd and Friday November 24th are deleted fromthe sample
Each day we remove the first and last 15-minute period andconsider M = 12 and N = 30.
Rt ,j,i are then 1-minute returns on day t between 9:45 and15:45. We aim at modeling and forecasting 30-minute volatility
Prices are defined as size weighted bid/ask averages (otherdefinitions have been considered).
We use four months for the “historical” analysis and retaintwelve months for the rolling forecasting exercise.
![Page 90: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/90.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
NYSE quotes for BOEING, EXXON, GENERAL ELECTRIC andIBM are obtained from the TAQ database
Data spans a 16-month period in January 2006 - April 2007
Monday July 3rd and Friday November 24th are deleted fromthe sample
Each day we remove the first and last 15-minute period andconsider M = 12 and N = 30.
Rt ,j,i are then 1-minute returns on day t between 9:45 and15:45. We aim at modeling and forecasting 30-minute volatility
Prices are defined as size weighted bid/ask averages (otherdefinitions have been considered).
We use four months for the “historical” analysis and retaintwelve months for the rolling forecasting exercise.
![Page 91: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/91.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
NYSE quotes for BOEING, EXXON, GENERAL ELECTRIC andIBM are obtained from the TAQ database
Data spans a 16-month period in January 2006 - April 2007
Monday July 3rd and Friday November 24th are deleted fromthe sample
Each day we remove the first and last 15-minute period andconsider M = 12 and N = 30.
Rt ,j,i are then 1-minute returns on day t between 9:45 and15:45. We aim at modeling and forecasting 30-minute volatility
Prices are defined as size weighted bid/ask averages (otherdefinitions have been considered).
We use four months for the “historical” analysis and retaintwelve months for the rolling forecasting exercise.
![Page 92: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/92.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
NYSE quotes for BOEING, EXXON, GENERAL ELECTRIC andIBM are obtained from the TAQ database
Data spans a 16-month period in January 2006 - April 2007
Monday July 3rd and Friday November 24th are deleted fromthe sample
Each day we remove the first and last 15-minute period andconsider M = 12 and N = 30.
Rt ,j,i are then 1-minute returns on day t between 9:45 and15:45. We aim at modeling and forecasting 30-minute volatility
Prices are defined as size weighted bid/ask averages (otherdefinitions have been considered).
We use four months for the “historical” analysis and retaintwelve months for the rolling forecasting exercise.
![Page 93: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/93.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
NYSE quotes for BOEING, EXXON, GENERAL ELECTRIC andIBM are obtained from the TAQ database
Data spans a 16-month period in January 2006 - April 2007
Monday July 3rd and Friday November 24th are deleted fromthe sample
Each day we remove the first and last 15-minute period andconsider M = 12 and N = 30.
Rt ,j,i are then 1-minute returns on day t between 9:45 and15:45. We aim at modeling and forecasting 30-minute volatility
Prices are defined as size weighted bid/ask averages (otherdefinitions have been considered).
We use four months for the “historical” analysis and retaintwelve months for the rolling forecasting exercise.
![Page 94: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/94.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
NYSE quotes for BOEING, EXXON, GENERAL ELECTRIC andIBM are obtained from the TAQ database
Data spans a 16-month period in January 2006 - April 2007
Monday July 3rd and Friday November 24th are deleted fromthe sample
Each day we remove the first and last 15-minute period andconsider M = 12 and N = 30.
Rt ,j,i are then 1-minute returns on day t between 9:45 and15:45. We aim at modeling and forecasting 30-minute volatility
Prices are defined as size weighted bid/ask averages (otherdefinitions have been considered).
We use four months for the “historical” analysis and retaintwelve months for the rolling forecasting exercise.
![Page 95: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/95.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
NYSE quotes for BOEING, EXXON, GENERAL ELECTRIC andIBM are obtained from the TAQ database
Data spans a 16-month period in January 2006 - April 2007
Monday July 3rd and Friday November 24th are deleted fromthe sample
Each day we remove the first and last 15-minute period andconsider M = 12 and N = 30.
Rt ,j,i are then 1-minute returns on day t between 9:45 and15:45. We aim at modeling and forecasting 30-minute volatility
Prices are defined as size weighted bid/ask averages (otherdefinitions have been considered).
We use four months for the “historical” analysis and retaintwelve months for the rolling forecasting exercise.
![Page 96: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/96.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
The total sample length is 3948 observations on 30-minutereturns (329 days).
In the period January 2006 - April 2006 there are 972observations (81 days)
In the out-of-sample forecasting exercise we maintain thesample length equal to 972 and we evaluate 2976 k -periodsahead forecasts (k = 1,2,3).
Daily data on prices (since January 2003) are downloaded fromhttp://finance.yahoo.com/
Overnight returns are computed as log(Opent )− log(Closet−1).Open prices are adjusted for dividends using an adjustmentfactor calculated from closing prices.
![Page 97: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/97.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
The total sample length is 3948 observations on 30-minutereturns (329 days).
In the period January 2006 - April 2006 there are 972observations (81 days)
In the out-of-sample forecasting exercise we maintain thesample length equal to 972 and we evaluate 2976 k -periodsahead forecasts (k = 1,2,3).
Daily data on prices (since January 2003) are downloaded fromhttp://finance.yahoo.com/
Overnight returns are computed as log(Opent )− log(Closet−1).Open prices are adjusted for dividends using an adjustmentfactor calculated from closing prices.
![Page 98: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/98.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
The total sample length is 3948 observations on 30-minutereturns (329 days).
In the period January 2006 - April 2006 there are 972observations (81 days)
In the out-of-sample forecasting exercise we maintain thesample length equal to 972 and we evaluate 2976 k -periodsahead forecasts (k = 1,2,3).
Daily data on prices (since January 2003) are downloaded fromhttp://finance.yahoo.com/
Overnight returns are computed as log(Opent )− log(Closet−1).Open prices are adjusted for dividends using an adjustmentfactor calculated from closing prices.
![Page 99: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/99.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
The total sample length is 3948 observations on 30-minutereturns (329 days).
In the period January 2006 - April 2006 there are 972observations (81 days)
In the out-of-sample forecasting exercise we maintain thesample length equal to 972 and we evaluate 2976 k -periodsahead forecasts (k = 1,2,3).
Daily data on prices (since January 2003) are downloaded fromhttp://finance.yahoo.com/
Overnight returns are computed as log(Opent )− log(Closet−1).Open prices are adjusted for dividends using an adjustmentfactor calculated from closing prices.
![Page 100: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/100.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Data
The total sample length is 3948 observations on 30-minutereturns (329 days).
In the period January 2006 - April 2006 there are 972observations (81 days)
In the out-of-sample forecasting exercise we maintain thesample length equal to 972 and we evaluate 2976 k -periodsahead forecasts (k = 1,2,3).
Daily data on prices (since January 2003) are downloaded fromhttp://finance.yahoo.com/
Overnight returns are computed as log(Opent )− log(Closet−1).Open prices are adjusted for dividends using an adjustmentfactor calculated from closing prices.
![Page 101: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/101.jpg)
0 10 20 30 40 50 60 70 80-2
-1.5
-1
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2
BOEING
Days0 10 20 30 40 50 60 70 80
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-1.5
-1
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2
EXXON
Days
0 10 20 30 40 50 60 70 80-2
-1.5
-1
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2
GENERAL ELECTRIC
Days0 10 20 30 40 50 60 70 80
-2
-1.5
-1
-0.5
0
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2
IBM
Days
30-minute returns (January-April 2006)
![Page 102: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/102.jpg)
0 10 20 30 40 50 60 70 800
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1BOEING
Days0 10 20 30 40 50 60 70 80
0
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1EXXON
Days
0 10 20 30 40 50 60 70 800
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1GENERAL ELECTRIC
Days0 10 20 30 40 50 60 70 80
0
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1IBM
Days
30-minute realized volatilities (January-April 2006)
![Page 103: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/103.jpg)
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
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0.5
0.6Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Realized Volatilities
Lags
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Realized Volatilities
Lags
ACF plots BOEING (January-April 2006)
![Page 104: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/104.jpg)
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Realized Volatilities
Lags
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Realized Volatilities
Lags
ACF plots EXXON (January-April 2006)
![Page 105: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/105.jpg)
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Realized Volatilities
Lags
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Realized Volatilities
Lags
ACF plots GENERAL ELECTRIC (January-April 2006)
![Page 106: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/106.jpg)
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Realized Volatilities
Lags
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Realized Volatilities
Lags
ACF plots IBM (January-April 2006)
![Page 107: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/107.jpg)
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
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0.3
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0.6Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Realized Volatilities
Lags
0 12 24 36 48 60 72 84 96 108 120-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Squared Returns
Lags0 12 24 36 48 60 72 84 96 108 120
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6Log of Realized Volatilities
Lags
ACF plots BOEING (January 2006 -April 2007) Full Sample
![Page 108: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/108.jpg)
Introduction Model & Notation Estimation Forecasting Empirical Application
Summary: ARIMA (p,d ,q)× (bp,bd ,bq)
ORDERS OF ESTIMATED MODELS
NO REG. DoW DoW + OR DoW + 12OR
BOEING (1, 0, 1)× (0, 1, 1) (1, 0, 1)× (0, 1, 1) (1, 0, 1)× (0, 1, 1) (1, 0, 1)× (0, 1, 1)
EXXON (1, 0, 1)× (0, 1, 1) (2, 0, 1)× (0, 1, 1) (2, 0, 1)× (0, 1, 1) (3, 0, 1)× (0, 1, 1)
G.E. (2, 0, 1)× (0, 1, 1) (2, 0, 1)× (0, 1, 1) (2, 0, 1)× (0, 1, 1) (2, 0, 1)× (0, 1, 1)
IBM (1, 0, 1)× (0, 1, 1) (1, 0, 1)× (0, 1, 1) (1, 0, 1)× (0, 1, 1) (0, 1, 3)× (0, 1, 1)
DETECTED OUTLIERS
NO REG. DoW DoW + OR DoW + 12OR
BOEING — — — —
EXXON 3 AO + 2 TC 2 AO + 2 TC 2 AO + 2 TC 2 AO + 2 TC
G.E. 5 AO + 2 TC 6 AO + 2 TC 9 AO + 3 TC 6 AO + 1 TC
IBM 1 TC — — 1 AO + 4 TC
![Page 109: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/109.jpg)
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![Page 113: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/113.jpg)
0 10 20 30 40 50 60 70 800.6
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WITHOUT REGRESSORS
Days0 10 20 30 40 50 60 70 80
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DAY OF THE WEEK
Days
0 10 20 30 40 50 60 70 800.6
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DAY OF THE WEEK and SINGLE OVERNIGHT RETURNS
Days0 10 20 30 40 50 60 70 80
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DAY OF THE WEEK and MULTIPLE OVERNIGHT RETURNS
Days
INTRADAY PERIODIC FACTORS BOEING (January-April 2006)
![Page 114: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/114.jpg)
0 10 20 30 40 50 60 70 800.6
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WITHOUT REGRESSORS
Days0 10 20 30 40 50 60 70 80
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DAY OF THE WEEK
Days
0 10 20 30 40 50 60 70 800.6
0.8
1
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1.4
1.6
1.8
DAY OF THE WEEK and SINGLE OVERNIGHT RETURNS
Days0 10 20 30 40 50 60 70 80
0.6
0.8
1
1.2
1.4
1.6
1.8
DAY OF THE WEEK and MULTIPLE OVERNIGHT RETURNS
Days
INTRADAY PERIODIC FACTORS EXXON (January-April 2006)
![Page 115: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/115.jpg)
0 10 20 30 40 50 60 70 800.6
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WITHOUT REGRESSORS
Days0 10 20 30 40 50 60 70 80
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1
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1.6
1.8
DAY OF THE WEEK
Days
0 10 20 30 40 50 60 70 800.6
0.8
1
1.2
1.4
1.6
1.8
DAY OF THE WEEK and SINGLE OVERNIGHT RETURNS
Days0 10 20 30 40 50 60 70 80
0.6
0.8
1
1.2
1.4
1.6
1.8
DAY OF THE WEEK and MULTIPLE OVERNIGHT RETURNS
Days
INTRADAY PERIODIC FACTORS GENERAL ELECTRIC (January-April 2006)
![Page 116: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/116.jpg)
0 10 20 30 40 50 60 70 800.6
0.8
1
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1.8
WITHOUT REGRESSORS
Days0 10 20 30 40 50 60 70 80
0.6
0.8
1
1.2
1.4
1.6
1.8
DAY OF THE WEEK
Days
0 10 20 30 40 50 60 70 800.6
0.8
1
1.2
1.4
1.6
1.8
DAY OF THE WEEK and SINGLE OVERNIGHT RETURNS
Days0 10 20 30 40 50 60 70 80
0.6
0.8
1
1.2
1.4
1.6
1.8
DAY OF THE WEEK and MULTIPLE OVERNIGHT RETURNS
Days
INTRADAY PERIODIC FACTORS IBM (January-April 2006)
![Page 117: Modeling and Forecasting Intraday Volatility with ...€¦ · Gabriele Fiorentini and Christian Macaro University of Florence University of Roma Tre and NYU Preliminary and Incomplete](https://reader036.vdocuments.net/reader036/viewer/2022071022/5fd6a3b6d00b7d63e3552c6f/html5/thumbnails/117.jpg)
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Introduction Model & Notation Estimation Forecasting Empirical Application
Forecast Evaluation
FORECASTING