Open Access
Subscription Access
Storage of Mobile Sensor Data in Clouds using Information Classification Algorithms
Mobiles are equipped with sensors like accelerometer, magnetic subject, and air strain meter, which assist within the system of extracting context of the person like area, scenario and so on. But, processing the extracted sensor facts is generally an aid intensive assignment, which can be offloaded to the general public cloud from mobiles. Mobile devices have become an essential part of our day to day life by which the user is able to access, create and share information at any location. This design especially objectives at extracting beneficial statistics from the accelerometer sensor records. The design proposes the utilization of parallel computing to the use of Map Reduce at the cloud for spotting human behavior primarily based on classifiers and ultimately calculating its accuracy. The sensor facts is extracted from the cellular, sent to the cloud and processed using threepopular classifier algorithms namely, Kernel Naïve Bayes, Naive Byes Classifier and K-Nearest-Neighbors. The results are verified at different scenarios of human activity and finally the accuracy is calculated using the classification algorithms.
Keywords
Sensor nodes, Cloud Computing, Information Classification, Sensor Data, K-NN Classifier, Naïve Bayes Classifier.
User
Font Size
Information
- B. Stenbock Andersen, C. Mangeot, 3-axial accelerometer, US Patent App. 20,100/043,552 (Mar. 26 2008).
- L. Bao, S. Intille, Activity recognition from user-annotated acceleration data, Pervasive Computing (2004) pp.1–17.
- J. Dean, S. Ghemawat, Mapreduce: Simplified data processing on large clusters, Communications of the ACM 51(1) (2008) pp.107–113.
- H. Flores, S. Srirama, C. Paniagua, A generic middleware framework for handling process intensive hybrid cloud services from mobiles, Proceedings of the 9th International Conference on Advances in Mobile Computing and Multimedia, ACM, (2011), pp. 87–94.
- N. Krishnan, S. Panchanathan, Analysis of low resolution accelerometer data for continuous human activity recognition, Acoustics, Speech and Signal Processing, ICASSP-2008. IEEE International Conference on, IEEE, (2008), pp.3337–3340.
- N. Ravi, N. Dandekar, P. Mysore, M. Littman, Activity recognition from accelerometer data, Proceedings of the National Conference on Artificial Intelligence, Vol. 20, Menlo Park, CA; Cambridge, MA; London; AAAI Press; MIT Press; (1999), pp.1541-1545.
- Diego Antolín, Nicolás Medrano, Belén Calvo and Francisco Pérez, A Wearable Wireless Sensor Network for Indoor Smart Environment Monitoring in Safety Applications, Sensors (Basel). (2017) Feb; 17(2), pp.1-14.
- Blesson Varghese, Rajkumar Buyya, Next generation cloud computing: New trends and research directions, Future Generation Computer Systems, 79, 2018, pp.849– 861.
- Er. Prachi Jain, Er. Alisha, A brief review on Hadoop architecture and its issues, International Journal of Engineering Research and General Science, 5(2), (2017), pp.211-217.
- Shuo Xu, Bayesian Naïve Bayes classifiers to text classification, Journal of Information Science, 44(1) (2016), pp.48-59.
- P. Langley, Stephanie Sage, Induction of selective bayesian classifiers., Tech. rep., DTIC Document (1994), pp.399-406.
- I. Rish, An empirical study of the naive bayes classifier, IJCAI 2001 Workshop on Empirical Methods in Artificial Intelligence, Vol. 3, No. 6. pp.56-58.
Abstract Views: 151
PDF Views: 0