Cross-Location Transfer Learning for The Sussex-Huawei Locomotion Recognition Challenge

被引：14

作者：

Janko, Vito ^{[1
]}

Gjoreski, Martin ^{[1
]}

De Masi, Carlo Maria ^{[1
]}

Rescic, Nina ^{[1
]}

Lustrek, Mitja ^{[1
]}

Gams, Matjaz ^{[1
]}

机构：

[1] Jozef Stefan Inst, Ljubljana, Slovenia

来源：

UBICOMP/ISWC'19 ADJUNCT: PROCEEDINGS OF THE 2019 ACM INTERNATIONAL JOINT CONFERENCE ON PERVASIVE AND UBIQUITOUS COMPUTING AND PROCEEDINGS OF THE 2019 ACM INTERNATIONAL SYMPOSIUM ON WEARABLE COMPUTERS | 2019年

关键词：

Activity recognition; machine learning; feature extraction; competition; smartphone; transfer learning;

D O I：

10.1145/3341162.3344856

中图分类号：

TP3 [计算技术、计算机技术];

学科分类号：

0812 ;

摘要：

The Sussex-Huawei Locomotion Challenge 2019 was an open competition in activity recognition where the participants were tasked with recognizing eight different modes of locomotion and transportation. The main difficulty of the challenge is that the training data was recorded with a smartphone that was placed in a different body location than the test data. Only a small validation set with all locations was provided to enable transfer learning. This paper describes our (team JSI First) approach, in which we first derived additional sensor streams from the existing ones and on them calculated a large body of features. We then used cross-location transfer learning via specialized feature selection, and performed two-step classification. Finally, we used Hidden Markov Models to alter the predictions in order to take their temporal dependencies into account. Internal tests using this methodology yielded an accuracy of 83%.

引用

页码：730 / 735

页数：6

共 16 条

[1] Calatroni Alberto, 2011, 8 INT C NETW SENS SY
[2] Transfer learning for activity recognition: a survey
Cook, Diane
Feuz, Kyle D.
Krishnan, Narayanan C.
[J]. KNOWLEDGE AND INFORMATION SYSTEMS, 2013, 36 (03) : 537 - 556
[3] Real-time activity monitoring with a wristband and a smartphone
Cvetkovic, Bozidara
Szeklicki, Robert
Janko, Vito
Lutomski, Przemyslaw
Lustrek, Mitja
[J]. INFORMATION FUSION, 2018, 43 : 77 - 93
[4] Cvetkovic B, 2015, 2015 IEEE INTERNATIONAL CONFERENCE ON PERVASIVE COMPUTING AND COMMUNICATION WORKSHOPS (PERCOM WORKSHOPS), P193, DOI 10.1109/PERCOMW.2015.7134019
[5] The University of Sussex-Huawei Locomotion and Transportation Dataset for Multimodal Analytics With Mobile Devices
Gjoreski, Hristijan
Ciliberto, Mathias
Wang, Lin
Morales, Francisco Javier Ordonez
Mekki, Sami
Valentin, Stefan
Roggen, Daniel
[J]. IEEE ACCESS, 2018, 6 : 42592 - 42604
[6] How Accurately Can Your Wrist Device Recognize Daily Activities and Detect Falls?
Gjoreski, Martin
Gjoreski, Hristijan
Lustrek, Mitja
Gams, Matjaz
[J]. SENSORS, 2016, 16 (06)
[7] A New Frontier for Activity Recognition - The Sussex-Huawei Locomotion Challenge
Janko, Vito
Rescic, Nina
Mlakar, Miha
Drobnic, Vid
Gams, Matjaz
Slapnicar, Gasper
Gjoreski, Martin
Bizjak, Jani
Marinko, Matej
Lustrek, Mitja
[J]. PROCEEDINGS OF THE 2018 ACM INTERNATIONAL JOINT CONFERENCE ON PERVASIVE AND UBIQUITOUS COMPUTING AND PROCEEDINGS OF THE 2018 ACM INTERNATIONAL SYMPOSIUM ON WEARABLE COMPUTERS (UBICOMP/ISWC'18 ADJUNCT), 2018, : 1511 - 1520
[8] Kozina S., 2013, Evaluating AAL Systems Through Competitive Benchmarking, V386, P13, DOI DOI 10.1007/978-3-642-41043-72
[9] Kuipers Jack B, 1999, Quaternions and rotation sequences, V66, DOI DOI 10.1515/9780691211701
[10] Kurz M., 2011, 3 INT C AD SELF AD S, V1, P73

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