Application of Smart Grid Communication Service Flow Modeling Based on Poisson Model in Grid Operation

Cao, Xin; Jin, Longxing; Huang, Fuquan; Liu, Zijun; Xiu, Rongkun

doi:10.4018/jcit.302243

Journal of Cases on Information Technology

2022

DOI: 10.4018/jcit.302243

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Application of Smart Grid Communication Service Flow Modeling Based on Poisson Model in Grid Operation

Xin Cao¹,

Longxing Jin

Fuquan Huang

et al.

Abstract: The early Poisson distribution and Markov autoregressive models can no longer reflect the characteristics of smart grid business flow. The long correlation characteristics of burst flow are simulated by the heavy tail ON/OFF model with multi-source convergence, while the Poisson model with short correlation and no memory is used for random flow. The simulation results show that the synthesized flow is still has a certain statistical self-similarity, and the coefficient H decreases after synthesis.That the long… Show more

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2024

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“…certain moment or the number of vehicles allocated at a certain distance satisfies a Poisson distribution. Its basic expression and the probability distribution of the distance between the front of the vehicle are represented by equation (1)[26][27][28].…”

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Priority Selection of Road Traffic Net-Works in Emergency Situations Based on Internet of Vehicles

Wang,

Geng

2024

IEEE Access

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The current emergency vehicle priority control methods in road traffic net-works are difficult to cope with the increasing traffic demand. Therefore, a traffic control method based on multi-vehicle collaborative lane change strategy, fleet convergence and gap adjustment model is proposed and its effectiveness is verified. These experiments confirmed that the speed of vehicle Cj+1 under strategy 1 showed a positive correlation with time at 0-5s, reaching an extreme value of 16.85 m/s around 4s, and a negative correlation after 5s. Under strategy 2, its speed showed a negative correlation with time at 0-4s, and a parallel relation-ship after 4s. The multi-vehicle col-laborative lane changing strategy was validated. Except for fleet C with a density of +0.0333m-1, the actual adjustment time of vehicle C1 was gradually increasing at all other densities. The maximum time for B1 adjustment was 9.358s, and the maximum time for C1 adjustment was 10.798s. The longitudinal relative dis-placement of C1 was larger than that of B1. In addition, compared with Model T, the research method increased the average vehicle speed by 12.64% under four different flow rates. Compared with Model Y, the average flow rate of the research method under the four experimental flows was 1.45%. Overall, the research method is effective and feasible in the priority selection control of road traffic net-works. It improves the operational efficiency of emergency vehicle sections and can be effectively applied in actual traffic net-works.INDEX TERMS Internet of Vehicles, Emergency situations, Multi-vehicle col-laborative lane changing strategy, Gap adjustment model, Flow

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Priority Selection of Road Traffic Net-Works in Emergency Situations Based on Internet of Vehicles

Wang,

Geng

2024

IEEE Access

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Application of Smart Grid Communication Service Flow Modeling Based on Poisson Model in Grid Operation

Cited by 1 publication

References 15 publications

Priority Selection of Road Traffic Net-Works in Emergency Situations Based on Internet of Vehicles

Priority Selection of Road Traffic Net-Works in Emergency Situations Based on Internet of Vehicles

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