Proceedings of the 24th Annual International Conference on Mobile Computing and Networking 2018
DOI: 10.1145/3241539.3241570
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CrossSense

Abstract: We present CrossSense, a novel system for scaling up WiFi sensing to new environments and larger problems. To reduce the cost of sensing model training data collection, CrossSense employs machine learning to train, off-line, a roaming model that generates from one set of measurements synthetic training samples for each target environment. To scale up to a larger problem size, CrossSense adopts a mixture-of-experts approach where multiple specialized sensing models, or experts, are used to capture the mapping f… Show more

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Cited by 189 publications
(24 citation statements)
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“…It may happen that a model trained in one domain (e.g., at a specific time interval, at a specific location, or for specific sensor hardware) is not accurate in another domain and the machine learning model has to be trained separately for each domain. The idea in transfer learning is to mitigate this problem and to make it possible to use commonalities between the different domains to train better and more accurate models, with a smaller amount of data needed per domain [149,153]. Transfer learning can transform a pre-trained model so that it can be applied to a different domain.…”
Section: Other Machine Learning Paradigmsmentioning
confidence: 99%
“…It may happen that a model trained in one domain (e.g., at a specific time interval, at a specific location, or for specific sensor hardware) is not accurate in another domain and the machine learning model has to be trained separately for each domain. The idea in transfer learning is to mitigate this problem and to make it possible to use commonalities between the different domains to train better and more accurate models, with a smaller amount of data needed per domain [149,153]. Transfer learning can transform a pre-trained model so that it can be applied to a different domain.…”
Section: Other Machine Learning Paradigmsmentioning
confidence: 99%
“…Gate-ID [27] explored to accurately recognize individuals in different walking orientations. CrossSense [25] and TransferSense [1] proposed to use transfer learning in achieving gait recognition across different monitoring sites. In contrast, WiDIGR [31] fused multiple receivers' spectrograms as direction-independent features to realize WiFi-based HI system.…”
Section: Related Work 51 Wifi-based Human Identificationmentioning
confidence: 99%
“…As a result, an increasing number of deep-learning models have been developed for WiFi sensing. 33 , 34 These have successfully addressed the shortcomings of traditional statistical learning methods. However, this article mainly focuses on achieving high accuracy on specific sensing tasks by customizing deep neural networks and does not explore the relationship between various deep-learning models and different WiFi-sensing data collected using different devices and CSI tools.…”
Section: Introductionmentioning
confidence: 99%