Low-power wireless devices suffer notoriously from Cross- Technology Interference (CTI). To enable co-existence, researchers have proposed a variety of interference mitigation strategies. Existing solutions, however, are designed to work with the limitations of currently available radio chips. In this paper, we investigate how to exploit physical layer properties of 802.15.4 signals to better address CTI. We present CrossZig, a cross-layer solution that takes advantage of physical layer information and processing to improve low-power communication under CTI. To this end, CrossZig utilizes physical layer information to detect presence of CTI in a corrupted packet and to apply an adaptive packet recovery which incorporates a novel cross-layer...
Nowadays, several wireless communication solutions targeted at low-power devices (e.g. sensors, actu...
International audienceConstructive Interference (CI) can happen when multiple wireless devices send ...
\u3cp\u3eThe future Internet of Things (IoT) is expected to be dense with multiple independently adm...
Low-power wireless devices suffer notoriously from Cross- Technology Interference (CTI). To enable c...
Low-power wireless devices suffer notoriously from Cross- Technology Interference (CTI). To enable c...
International audience—Low-power wireless devices suffer notoriously from Cross-Technology Interfere...
We present a system that leverages physical layer features to combat Cross-Technology Interference (...
The proliferation of a wide range of wireless devices operat-ing in the crowded 2.4 GHz ISM band is ...
Over the last few decades, we witnessed notable progress in wireless communication. This has led to ...
The rise of heterogeneity in wireless technologies operating in the unlicensed bands has been shown ...
In this paper, we show that inter-technology interference can be recognized using commodity WiFi dev...
Low-power wireless networks deployed in indoor environments inevitably encounter high-power Cross Te...
More and more wireless networks are deployed with overlapping coverage. Especially in the unlicensed...
Many IoT applications have stringent requirements on wireless transmission delay but must compete fo...
During the past few years we have witnessed an emergence of Wide Area Networks in the Internet of Th...
Nowadays, several wireless communication solutions targeted at low-power devices (e.g. sensors, actu...
International audienceConstructive Interference (CI) can happen when multiple wireless devices send ...
\u3cp\u3eThe future Internet of Things (IoT) is expected to be dense with multiple independently adm...
Low-power wireless devices suffer notoriously from Cross- Technology Interference (CTI). To enable c...
Low-power wireless devices suffer notoriously from Cross- Technology Interference (CTI). To enable c...
International audience—Low-power wireless devices suffer notoriously from Cross-Technology Interfere...
We present a system that leverages physical layer features to combat Cross-Technology Interference (...
The proliferation of a wide range of wireless devices operat-ing in the crowded 2.4 GHz ISM band is ...
Over the last few decades, we witnessed notable progress in wireless communication. This has led to ...
The rise of heterogeneity in wireless technologies operating in the unlicensed bands has been shown ...
In this paper, we show that inter-technology interference can be recognized using commodity WiFi dev...
Low-power wireless networks deployed in indoor environments inevitably encounter high-power Cross Te...
More and more wireless networks are deployed with overlapping coverage. Especially in the unlicensed...
Many IoT applications have stringent requirements on wireless transmission delay but must compete fo...
During the past few years we have witnessed an emergence of Wide Area Networks in the Internet of Th...
Nowadays, several wireless communication solutions targeted at low-power devices (e.g. sensors, actu...
International audienceConstructive Interference (CI) can happen when multiple wireless devices send ...
\u3cp\u3eThe future Internet of Things (IoT) is expected to be dense with multiple independently adm...