Abstract An effective broadcasting protocol proposed to maintain sufficient broadcast of the control overhead (OH) message between vehicles without compromising vehicle speed and high data rate (without delay) even under unbalanced connectivity. For effective broadcasting, an adaptive data controlling protocol (ADCP) is proposed. It combines swarm optimization (SO) and fuzzy predicator-based decision making (FPDM) algorithm. According to this, vehicles are made into different clustering group and each group cluster head (CH) is selected through which control overhead message forward/re-forward between vehicles. Then, an FPDM algorithm is executed which provides alternative suggestion about new road safety path. Hence, it is simply broadcast the control overhead message by ensuring nearby vehicles count and distance from neighbouring hubs around it. As a result, it has restricted frequent exchanging of control overhead (OH) message. SECURE DEVICE TO DEVICE CONNECTIVITY MECHANISM FOR IOT SMART CITY APPLICATIONS enl~ Sen Fig. 1 illustrates the layout of flexible vehicle traffic maintenance system. r i5 Fig. 2illustrates aprocess of Identity emergency vehicle for endpoint security.
Secure Device To Device Connectivity Mechanism for IoT Smart City Applications
2021-05-13
Patent
Elektronische Ressource
Englisch
IPC: | G08G Anlagen zur Steuerung, Regelung oder Überwachung des Verkehrs , TRAFFIC CONTROL SYSTEMS / G06N COMPUTER SYSTEMS BASED ON SPECIFIC COMPUTATIONAL MODELS , Rechnersysteme, basierend auf spezifischen Rechenmodellen / H04L TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION , Übertragung digitaler Information, z.B. Telegrafieverkehr / H04W WIRELESS COMMUNICATION NETWORKS , Drahtlose Kommunikationsnetze |
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