5g in lte phy lab - product presentation is-wireless
TRANSCRIPT
5G in LTE PHY Lab
Product presentation
5G in LTE PHY Lab Overview
5G in LTE PHY Lab is a link-level simulation tool running under MATLAB
environment.
LTE PHY Lab was the first library for MATLAB to implement LTE-Advanced
features. Currently it is the first library to implement 5G waveforms, such as
UFMC.
UFMC waveform from:
Main Applications
The software can be used by ODM, OEM, Chip manufacturers, Protocol
Stack Developers, Operators, Research Institutes, Universities and
Training Companies.
Main Applications:
• Research – Testing waveforms and channel processing performance
• Prototyping – Development and verification of proprietary LTE
algorithms
• Implementation – Providing golden-reference waveforms
• System benchmarking – Verification of the waveforms with 3GPP
OFDM and SC-FDMA
• Testing and Verification – Prototyping functions verification against
LTE PHY Lab reference
5G in LTE PHY Lab architecture and deliverables
Deliverables: • LTE PHY Lab is delivered as a Toolbox operating under MATLAB environment, • It consists of m-, mex- and p-files, which are logically structured to reflect the hierarchical
architecture of PHY processing, • Substantial parts of the code are open for the customer modification, • All functions have well-defined interfaces with described parameters, which make it
possible to replace them with proprietary customer’s implementation.
Technical Specification Summary
• 5G capabilities: – Environment for developing novel waveform
– UFMC transmitter and receiver
• LTE capabilities: – Physical layer models of 3GPP Release 8, 9 and 10 E-UTRA physical layer
– Downlink and uplink (including RACH) support
– OFDMA and SC-FDMA end-to-end processing
– MIB / DCI generation and decoding
– Feedback generation and decoding (CQI, PMI, RI estimation)
– Channel models included (AWGN, SUI, E-UTRA 3GPP TS 36.101)
– Support for MIMO (SM (SU-MIMO), TX diversity)
– Signal decoding:
– RX functionalities including synchronization, channel estimation / correction
– Cooperation with popular SDR hardware, including USRP (APIs for signal recording)
– Demodulation and decoding of LTE signals from a file
– Usage:
– Use case scenarios (e.g. UL feedback generation, system sync procedure)
– Graphical User Interface (GUI)
Example User Experience #1
LTE PHY Lab GUI Overview
Example User Experience #2
LTE PHY Lab time and frequency results
What LTE PHY Lab can do for you?
Shorten your time-to-paper
Reduce the risk of developing new products and networks
Visualize and analyze your data
IS-Wireless Company overview
• IS-Wireless is a globally operating Polish software developer and IP
provider specializing in advanced solutions for wireless systems.
• IS-Wireless develops 4G and 5G algorithms, protocols and tools that
are targeted primarily at early technology adopters including ODMs,
OEMs, chip vendors and operators.
Founder and CEO
Ownership
Location
Industry
Products
Services
Web
COMPANY FACTS Slawomir Pietrzyk
Privately held
Piaseczno near Warsaw, Poland, EU
Wireless communications
Software: protocols and simulators, IP: algorithms and know-how
Technical courses, wireless systems design
www.is-wireless.com
For more information visit:
www.is-wireless.com/5g-in-lte-phy-lab