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CROSS-LAYER DESIGN OF CONGESTION CONTROL AND POWER CONTROL IN FAST-FADING WIRELESS NETWORKS ABSTRACT: We study the cross-layer design of congestion control and power allocation with outage constraint in an interference-limited multihop wireless networks. Using a complete- convexification method, we first propose a message-passing distributed algorithm that can attain the global optimal source rate and link power allocation. Despite the attractiveness of its optimality, this algorithm requires larger message size than that of the conventional scheme, which increases network overheads. Using the bounds on outage probability, we map the outage constraint to an SIR constraint and continue developing a practical near-optimal distributed algorithm requiring only local SIR measurement at link receivers to limit the size of the message. Due to the complicated complete-convexification method, however the congestion control of both algorithms no longer preserves the existing TCP stack. We propose the third algorithm using a successive convex approximation method to iteratively transform the original nonconvex problem into approximated convex problems, then the global optimal solution can converge distributively with message-passing. Thanks to the tightness of the bounds and successive approximations, numerical results show that the gap between three algorithms is almost indistinguishable. Despite the same type of the complete-convexification method, the numerical comparison shows that the second near-optimal scheme has a faster convergence rate than that of the first optimal one, which make the near-optimal scheme more favorable and applicable in practice. Meanwhile, the third optimal scheme also has a faster convergence rate than that of a previous work using logarithm successive approximation method. ECWAY TECHNOLOGIES IEEE PROJECTS & SOFTWARE DEVELOPMENTS OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE CELL: +91 98949 17187, +91 875487 2111 / 3111 / 4111 / 5111 / 6111 VISIT: www.ecwayprojects.com MAIL TO: [email protected]

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Page 1: Cross layer design of congestion control and power control in fast-fading wireless networks

CROSS-LAYER DESIGN OF CONGESTION CONTROL AND POWER CONTROL

IN FAST-FADING WIRELESS NETWORKS

ABSTRACT:

We study the cross-layer design of congestion control and power allocation with outage

constraint in an interference-limited multihop wireless networks. Using a complete-

convexification method, we first propose a message-passing distributed algorithm that can attain

the global optimal source rate and link power allocation. Despite the attractiveness of its

optimality, this algorithm requires larger message size than that of the conventional scheme,

which increases network overheads. Using the bounds on outage probability, we map the outage

constraint to an SIR constraint and continue developing a practical near-optimal distributed

algorithm requiring only local SIR measurement at link receivers to limit the size of the message.

Due to the complicated complete-convexification method, however the congestion control of

both algorithms no longer preserves the existing TCP stack.

We propose the third algorithm using a successive convex approximation method to iteratively

transform the original nonconvex problem into approximated convex problems, then the global

optimal solution can converge distributively with message-passing. Thanks to the tightness of the

bounds and successive approximations, numerical results show that the gap between three

algorithms is almost indistinguishable. Despite the same type of the complete-convexification

method, the numerical comparison shows that the second near-optimal scheme has a faster

convergence rate than that of the first optimal one, which make the near-optimal scheme more

favorable and applicable in practice. Meanwhile, the third optimal scheme also has a faster

convergence rate than that of a previous work using logarithm successive approximation method.

ECWAY TECHNOLOGIES

IEEE PROJECTS & SOFTWARE DEVELOPMENTS

OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE

CELL: +91 98949 17187, +91 875487 2111 / 3111 / 4111 / 5111 / 6111

VISIT: www.ecwayprojects.com MAIL TO: [email protected]

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