This paper investigates a fair resource allocation method in crosstalk limited DSL systems. As a measure of fairness, the concept of Balanced Capacity (BC), introduced in [1], is used. BC corresponds to a point of the boundary of the capacity region where each user experiences the same relative loss with respect to his maximum capacity. Our goal is to propose algorithms to compute the corresponding point in DSL (Digital Subscriber Line) systems where some users suffer from a near-far situation and for constraints on individual power spectrum densities. Results are reported for typical crosstalk limited cases and are compared to a resource allocation optimized for the sum rate. © 2006 IEEE
Crosstalk is one of the main impairments of digital subscriber line (DSL) systems. To combat this im...
{ sartenaer,vandendorpe} @ te1e.ucl.ac.be This paper applies the concept of balanced capacity (a tr...
AbstractIn digital subscriber line (DSL) system, crosstalk created by electromagnetic interference a...
In this thesis, resource allocation problems relevant to multicarrier DSL environments are consider...
Crosstalk is one of the main limiting factors in the data rates achievable by digital subscriber lin...
Crosstalk is one of the main limiting factors in the data rates achievable by digital subscriber lin...
In the newest generation of DSL systems crosstalk is the dominant source of performance degradation....
DSL systems "Digitial Subscriber Line", take advantage of the long time not used high frequency ban...
© 2017 IEEE. Digital subscriber line (DSL) technology remains the most popular broadband access tech...
Digital subscriber lines (DSLs) technology is vastly used for high-speed data transmission. Crosstal...
Crosstalk is one of the main impairments of digital subscriber line (DSL) systems. To combat this im...
Finding the power allocations that maximize the sum-rate of a K-user N-tone Digital Subscriber Line ...
Conference PaperWe present a framework for maximizing the capacity (or bit rate) of symmetric bit ra...
Abstract There are many spectrum balancing algorithms to combat the deleterious impact of crosstalk ...
Dynamic spectrum management (DSM) techniques mitigate crosstalk in digital subscriber line (DSL) net...
Crosstalk is one of the main impairments of digital subscriber line (DSL) systems. To combat this im...
{ sartenaer,vandendorpe} @ te1e.ucl.ac.be This paper applies the concept of balanced capacity (a tr...
AbstractIn digital subscriber line (DSL) system, crosstalk created by electromagnetic interference a...
In this thesis, resource allocation problems relevant to multicarrier DSL environments are consider...
Crosstalk is one of the main limiting factors in the data rates achievable by digital subscriber lin...
Crosstalk is one of the main limiting factors in the data rates achievable by digital subscriber lin...
In the newest generation of DSL systems crosstalk is the dominant source of performance degradation....
DSL systems "Digitial Subscriber Line", take advantage of the long time not used high frequency ban...
© 2017 IEEE. Digital subscriber line (DSL) technology remains the most popular broadband access tech...
Digital subscriber lines (DSLs) technology is vastly used for high-speed data transmission. Crosstal...
Crosstalk is one of the main impairments of digital subscriber line (DSL) systems. To combat this im...
Finding the power allocations that maximize the sum-rate of a K-user N-tone Digital Subscriber Line ...
Conference PaperWe present a framework for maximizing the capacity (or bit rate) of symmetric bit ra...
Abstract There are many spectrum balancing algorithms to combat the deleterious impact of crosstalk ...
Dynamic spectrum management (DSM) techniques mitigate crosstalk in digital subscriber line (DSL) net...
Crosstalk is one of the main impairments of digital subscriber line (DSL) systems. To combat this im...
{ sartenaer,vandendorpe} @ te1e.ucl.ac.be This paper applies the concept of balanced capacity (a tr...
AbstractIn digital subscriber line (DSL) system, crosstalk created by electromagnetic interference a...