Add to ORKGThe typical duration of multimedia streams makes wireless network interface (WNIC) energy consumption a particularly acute problem for mobile clients. In this work, we explore ways to transmit data packets in a predictable fashion; allowing the clients to transition the WNIC to a lower power consuming sleep state. First, we show the limitations of IEEE 802.11 power saving mode for isochronous multimedia streams. Without an understanding of the stream requirements, they do not offer any energy savings for multimedia streams over 56 kbps. The potential energy savings is also affected by multiple clients sharing the same access point. On the other hand, an application-specific server side traffic shaping mechanism can offer good energy saving ...
In many devices, wireless network interfaces consume upwards of 30% of scarce portable system energy...
We study how much energy can be saved by reshaping audio streaming traffic before receiving at the m...
A significant fraction of the power in portable devices (handheld terminals, PDAs, laptops, etc.) is...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Increasingly, mobile devices equipped with 802.11n inter-faces are being used for a wide variety of ...
ABSTRACT: Reducing the energy expenses of the wireless network is the extend the battery duration of...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
Abstract—Battery powered mobile devices suffer from signif-icant power consumption of the WiFi netwo...
We study how much energy can be saved by reshaping audio streaming traffic before receiving at the m...
In many devices, wireless network interfaces consume upwards of 30% of scarce portable system energy...
We study how much energy can be saved by reshaping audio streaming traffic before receiving at the m...
A significant fraction of the power in portable devices (handheld terminals, PDAs, laptops, etc.) is...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Designing wireless streaming multimedia applications is a challenging task that involves the explora...
Increasingly, mobile devices equipped with 802.11n inter-faces are being used for a wide variety of ...
ABSTRACT: Reducing the energy expenses of the wireless network is the extend the battery duration of...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
Abstract—Battery powered mobile devices suffer from signif-icant power consumption of the WiFi netwo...
We study how much energy can be saved by reshaping audio streaming traffic before receiving at the m...
In many devices, wireless network interfaces consume upwards of 30% of scarce portable system energy...
We study how much energy can be saved by reshaping audio streaming traffic before receiving at the m...
A significant fraction of the power in portable devices (handheld terminals, PDAs, laptops, etc.) is...