Traffic-aware ACB scheme for massive access in machine-to-machine networks

Supporting massive access of machine-type devices in a short period is a critical challenge in machine-to-machine (M2M) communications. We in this paper propose a traffic-aware Access Class Barring (ACB) scheme to improve the scalability of M2M networks. Unlike traditional ACB scheme, our proposed scheme aim at dynamically regulating the parameter of access probability, called barring factor, based on network load, thus accommodating much more M2M devices as well as lowering the access delay. To achieve this goal, we first develop a Markov-Chain based traffic-load estimation scheme according to the collision status. Then, we propose a spectrum of functions to control the barring factor varying with the estimated traffic load. Also provided is a set of simulations results, demonstrating that our proposed traffic-aware scheme significantly outperforms the traditional ACB scheme in terms of not only access success probability, but also average access delay.

[1]  Kwang-Cheng Chen,et al.  Massive Access Management for QoS Guarantees in 3GPP Machine-to-Machine Communications , 2011, IEEE Communications Letters.

[2]  Jesus Alonso-Zarate,et al.  Is the Random Access Channel of LTE and LTE-A Suitable for M2M Communications? A Survey of Alternatives , 2014, IEEE Communications Surveys & Tutorials.

[3]  Tarik Taleb,et al.  Cellular-based machine-to-machine: overload control , 2012, IEEE Network.

[4]  Antonio Iera,et al.  The Internet of Things: A survey , 2010, Comput. Networks.

[5]  Hsuan-Jung Su,et al.  Random access design for clustered wireless machine to machine networks , 2013, 2013 First International Black Sea Conference on Communications and Networking (BlackSeaCom).

[6]  Kwang-Cheng Chen,et al.  Toward ubiquitous massive accesses in 3GPP machine-to-machine communications , 2011, IEEE Communications Magazine.

[7]  Mo-Han Fong,et al.  Controlling access overload and signaling congestion in M2M networks , 2012, 2012 Conference Record of the Forty Sixth Asilomar Conference on Signals, Systems and Computers (ASILOMAR).

[8]  Jing Wang,et al.  An adaptive medium access control mechanism for cellular based Machine to Machine (M2M) communication , 2010, 2010 IEEE International Conference on Wireless Information Technology and Systems.

[9]  Arjun K. Gupta,et al.  Handbook of beta distribution and its applications , 2004 .

[10]  Richard J. La,et al.  FASA: Accelerated S-ALOHA Using Access History for Event-Driven M2M Communications , 2013, IEEE/ACM Transactions on Networking.

[11]  Kwang-Cheng Chen,et al.  Cooperative Access Class Barring for Machine-to-Machine Communications , 2012, IEEE Transactions on Wireless Communications.