This paper presents the three-fold energy, rate and delay tradeoff in mobile multimedia fading channels. In particular, we propose a rate-efficient power allocation strategy for delay-outage limited applications with constraints on energy-per-bit consumption of the system. For this purpose, at a target delay-outage probability, the link-layer energy efficiency, referred to as effective-EE, is measured by the ratio of effective capacity (EC) and the total expenditure power, including the transmission power and the circuit power. At first, the maximum effective-EE of the channel at a target delay-outage probability is found. Then, the optimal power allocation strategy is obtained to maximize EC subject to an effective-EE constraint with the l...
In this paper, the total system effective capacity (EC) maximization problem for the uplink transmis...
This paper presents an optimal energy-efficient power allocation scheme for a point-to-point multica...
In this paper, we maximize the parameterized energy efficiency (EEP) of a multi-channel fading commu...
This paper presents the three-fold energy, rate and delay tradeoff in mobile multimedia fading chann...
This paper proposes a new power allocation technique to jointly optimize link-layer energy efficienc...
A joint energy and spectral efficient power allocation strategy for a point-to-point multi-carrier l...
This paper presents a delay-QoS-driven spectrum and energy efficiency optimization transmission tech...
Effective Capacity defines the maximum communication rate subject to a specific delay constraint, wh...
A joint optimization problem of link-layer energy efficiency (EE) and effective capacity (EC) in a N...
A joint optimization problem of link-layer energy efficiency (EE) and effective capacity (EC) in a N...
Energy efficiency in fading channels in the presence of QoS constraints is studied. Effective capaci...
This paper presents an energy-efficient power allocation strategy for Nakagami-m flat-fading channel...
Delay quality-of-service (QoS) guarantees play a critical role in enabling delay-sensitive wireless ...
This paper presents an energy-efficient power allocation strategy for Nakagami-m flat-fading channel...
This paper presents an energy-efficient power allocation for a multicarrier link over a frequency-se...
In this paper, the total system effective capacity (EC) maximization problem for the uplink transmis...
This paper presents an optimal energy-efficient power allocation scheme for a point-to-point multica...
In this paper, we maximize the parameterized energy efficiency (EEP) of a multi-channel fading commu...
This paper presents the three-fold energy, rate and delay tradeoff in mobile multimedia fading chann...
This paper proposes a new power allocation technique to jointly optimize link-layer energy efficienc...
A joint energy and spectral efficient power allocation strategy for a point-to-point multi-carrier l...
This paper presents a delay-QoS-driven spectrum and energy efficiency optimization transmission tech...
Effective Capacity defines the maximum communication rate subject to a specific delay constraint, wh...
A joint optimization problem of link-layer energy efficiency (EE) and effective capacity (EC) in a N...
A joint optimization problem of link-layer energy efficiency (EE) and effective capacity (EC) in a N...
Energy efficiency in fading channels in the presence of QoS constraints is studied. Effective capaci...
This paper presents an energy-efficient power allocation strategy for Nakagami-m flat-fading channel...
Delay quality-of-service (QoS) guarantees play a critical role in enabling delay-sensitive wireless ...
This paper presents an energy-efficient power allocation strategy for Nakagami-m flat-fading channel...
This paper presents an energy-efficient power allocation for a multicarrier link over a frequency-se...
In this paper, the total system effective capacity (EC) maximization problem for the uplink transmis...
This paper presents an optimal energy-efficient power allocation scheme for a point-to-point multica...
In this paper, we maximize the parameterized energy efficiency (EEP) of a multi-channel fading commu...