GPS-Less Localization System in Vehicular Networks Using Dedicated Short Range Communication

Ko, Byungjin; Lee, Haengju; Son, Sang H.

doi:10.1109/rtcsa.2016.26

Cited by 11 publications

(2 citation statements)

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“…There are three main scenarios for vehicular communication: vehicle-to-vehicle (V2V), vehicle-to-infrastructure (V2I), and vehicle-to-pedestrian (V2P) [47]. The commonly used technologies are dedicated short-range communications (DSRC) [48]/IEEE 802.11p [49], IEEE 1609 family of standards [50], and Long Term Evolution (LTE) [51]. Some of the key technologies that shape the modern automobile industry and vehicular networks are described in [52] and [53] respectively.…”

Section: Introductionmentioning

confidence: 99%

Cooperative Vehicular Networking: A Survey

Ahmed

Gharavi

2018

IEEE Trans. Intell. Transport. Syst.

229

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With the remarkable progress of cooperative communication technology in recent years, its transformation to vehicular networking is gaining momentum. Such a transformation has brought a new research challenge in facing the realization of cooperative vehicular networking (CVN). This paper presents a comprehensive survey of recent advances in the field of CVN. We cover important aspects of CVN research, including physical, medium access control, and routing protocols, as well as link scheduling and security. We also classify these research efforts in a taxonomy of cooperative vehicular networks. A set of key requirements for realizing the vision of cooperative vehicular networks is then identified and discussed. We also discuss open research challenges in enabling CVN. Lastly, the paper concludes by highlighting key points of research and future directions in the domain of CVN.

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Section: Introductionmentioning

confidence: 99%

Cooperative Vehicular Networking: A Survey

Ahmed

Gharavi

2018

IEEE Trans. Intell. Transport. Syst.

229

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“…From a different perspective, the future 6G. also in light of massive exploitation of Artificial Intelligence (AI), will demand for more separation and symmetry between HW and SW [14]- [17], probably pushing the reformulation of the HW concept itself, as hypnotized in [18].…”

Section: Introductionmentioning

confidence: 99%

Getting ready for beyond-5G, super-IoT and 6G at hardware passive components level: a multi-state RF-MEMS monolithic step attenuator analyzed up to 60 GHz

Iannacci

Tagliapietra

2022

Microsyst Technol

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Looking at 2030, the landscape of technology will be dominated by paradigms like 6G, Super-IoT (Internet of Things) and Tactile Internet (TI). From the perspective of Hardware (HW) components technologies, the turning into reality of such scenarios will demand for a radical reconceptualization of devices, sub-systems and systems, probably modifying the concept of HW itself. Driven by the target of taking initial steps in the direction of such future applications, this work discusses a 4 bit RF power step attenuator entirely realized in RF-MEMS technology. Physical samples are fabricated in a surface micromachining technology and rely on electrostatically actuated cantilevered MEMS ohmic switches to select or short resistive loads placed along the RF line. Fabricated devices are tested and validated up to 30 GHz, while simulations are discussed up to 60 GHz for the full set of allowed configurations. Despite a few technology non-idealities, the network shows levels of attenuation with a flatness as good as 1 dB over 60 GHz frequency span. The measured and simulated data reported in this work offer important indications on how to improve the network concept, both at technology and design level.

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The WEAF Mnecosystem: a perspective of MEMS/NEMS technologies as pillars of future 6G, tactile internet and super-IoT

Iannacci

2021

Microsyst Technol

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GPS-Less Localization System in Vehicular Networks Using Dedicated Short Range Communication

Cited by 11 publications

References 0 publications

Cooperative Vehicular Networking: A Survey

Cooperative Vehicular Networking: A Survey

Getting ready for beyond-5G, super-IoT and 6G at hardware passive components level: a multi-state RF-MEMS monolithic step attenuator analyzed up to 60 GHz

The WEAF Mnecosystem: a perspective of MEMS/NEMS technologies as pillars of future 6G, tactile internet and super-IoT

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