Cooperative device discovery for multi-interface self-organizing networks

Kim, Do-yun; Choi, Young‐June

doi:10.1007/s12083-015-0359-6

Cited by 2 publications

(2 citation statements)

References 13 publications

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“…The results validate that eDiscovery saves 44% energy and 21% discovery ratio compared to continuous inquiry duration and period methods and results are verified through many simulations using the ns-2 simulator. Cooperative DD for multi-interface is suggested in [79] for self-organizing networks, where based on the jump and stay procedure, a rendezvous algorithm is proposed. The results approve that the anticipated rendezvous algorithm accomplishes higher performance compared to conventional approaches.…”

Section: B Recent Advances In Dd Methodologiesmentioning

confidence: 99%

Device Discovery in D2D Communication: A Survey

et al. 2019

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Device to Device (D2D) communication was first considered in out-band to manage energy issues in the wireless sensor networks. The primary target was to secure information about system topology for successive communication. Now the D2D communication has been legitimated in in-band by the 3rd Generation Partnership Project (3GPP). To initiate D2D communication, Device Discovery (DD) is a primary task and every D2D application benefits from DD as an end to end link maintenance and data relay when the direct path is obstructed. The DD is facing new difficulties because of the mobility of the devices over static systems, and the mobility makes it more challenging for D2D communication. For in-band D2D, DD in a single cell and multi-cell, and dense area is not legitimated properly, causing latency, inaccuracy, and energy consumption. Among extensive studies on limiting energy consumption and latency, DD is one of the essential parts concentrating on access and communication. In this paper, a comprehensive survey on DD challenges, for example single cell/multi-cell and dense area DD, energy consumption during discovery, discovery delay, and discovery security, etc., has been presented to accomplish an effective paradigm of D2D networks. In order to undertake the device (user) needs, an architecture has been projected, which promises to overwhelm the various implementation challenges of DD. The paper mainly focuses on DD taxonomy and classification with an emphasis on discovery procedures and algorithms, a summary of advances and issues, and ways for potential enhancements. For ensuring a secure DD and D2D, auspicious research directions have been proposed, based on taxonomy.

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Section: B Recent Advances In Dd Methodologiesmentioning

confidence: 99%

Device Discovery in D2D Communication: A Survey

et al. 2019

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“…Therefore, the distributed method is avoided for S&P acknowledged systems. [6]. Conversely, it can make significant security concerns from the device perspective and also be sensitive to global interference and security violations in the DD.…”

Section: Introductionmentioning

confidence: 99%

A Survey on Security and Privacy Challenges in Device Discovery for Next-Generation Systems

et al. 2020

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Device to Device (D2D) communications is a candidate technology for the fifth-generation (5G) and beyond mobile networks and certainly that results in high throughput, less energy consumption, reduce delay, and data traffic offload. Proximity services are the key enablers of D2D communications. A D2D technology boosts the performance and capacity of a conventional cellular system through the proximity services. To initiate the proximity services, Device Discovery (DD) is one of the the primary tasks. A DD makes the decision for effective D2D communications in terms of accuracy, speed, and minimum energy consumption. To discover the neighbor devices, the discovery signal is transmitted directly or through some access points. The discovery signal is affected by invaders during transmission which causes inaccuracy, energy consumption, and latency. Therefore, security and privacy issues must be addressed, especially in discovery signal transmission. In this paper, security and privacy issues in DD are highlighted. It is comprehensive and proves that in-band is much better than out-band with practical and technological reasons. To enhance the scope of the research, network level, and system level Security and Privacy (S&P) issues in the distributed and centralized systems environment with or without central management are surveyed. Along with an extensive survey is provided for the most recent work on DD concerning security and privacy issues, and comparison among in-band and out-band DD is performed. In the end, open issues are identified as future work on DD security and privacy in D2D communications. It is a novel survey in terms of security and privacy aspects of DD with possible suggested solutions for readers' motivation.

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Cooperative device discovery for multi-interface self-organizing networks

Cited by 2 publications

References 13 publications

Device Discovery in D2D Communication: A Survey

Device Discovery in D2D Communication: A Survey

A Survey on Security and Privacy Challenges in Device Discovery for Next-Generation Systems

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