Drone Delivery Service Using LiFi and CamCom Data Link
This document introduces a cutting-edge concept of utilizing LiFi and CamCom technology for drone-based delivery services. By leveraging light communication, drones can efficiently locate and interact with vehicles on the road to ensure prompt delivery, revolutionizing the future of logistics. The potential applications span across various industries such as intelligent transportation systems, advanced driver-assistance systems, and Internet of Things, promising a new era of real-time, mobile delivery services with enhanced connectivity.
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July 2018 Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: Drone based Delivery Service using LiFi / CamCom Data Link for On Drive Time Delivery Date Submitted: July 2018 Source: Jaesang Cha(SNUST), Ilkyoo Lee (Kongju National Univ.), Chanhyung Chung (RAPA), Incheol Jeong (Sungkonghoe Univ.), Vinayagam Mariappan(SNUST), Sooyoung Chang(SYCA) Address: Contact Information: +82-2-970-6431, FAX: +82-2-970-6123, E-Mail: chajs@seoultech.ac.kr Re: Abstract: This documents introduce the V2V LiFi / CamCom Data Link design consideration for VAT. This LiFi / CamCom data link model proposed to introduce the possibility of using light communication for drone based delivery service while buyer in drive on road. This VAT To provided concept models of Light Communication based LiFi / CamCom solution for real-time mobility delivery service using drone.. This can be used on the application services like ITS, ADAS, IoT/IoL, LED ID, digital signage with connected information services etc. on road / on air / on water condition in future. doc.: IEEE 15-18-0362-00-0vat Purpose: To provided concept models of Light Communication based LiFi/CamCom solution for Vehicular Assistant Technology (VAT) Interest Group Notice: This document has been prepared to assist the IEEE P802.15. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release: The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P802.15. Slide 1 Submission Jaesang Cha, SNUST
July 2018 doc.: IEEE 15-18-0362-00-0vat Contents Needs for Drone based Delivery Service LiFi / CamCom Link for Drone based Delivery Service Conclusion Slide 2 Submission Jaesang Cha, SNUST
July 2018 doc.: IEEE 15-18-0362-00-0vat Needs for Drone based Delivery Service Needs In future drone will be used deliver all kinds of products to buyer directly People are moving from workplaces to home or home to workplaces When they are in moving, the order delivery comes, its difficult to deliver the order buyers on time In this case, the drone can be used as delivery transport and must find the car of the buyer on road This will be the effective delivery system model in the future Basic Concept GOOGLE LiFi/CamCom technology used to find the buyer car and authorization for < Drone for Delivery Service > delivery of the material Using the Lighting System attached on the car and the camera installed on the drone, to enable LiFi/CamCom technology for communication between drone and car to enable drone to authorize the buyer faster. Slide 3 Submission Jaesang Cha, SNUST
July 2018 doc.: IEEE 15-18-0362-00-0vat LiFi / CamCom Link for Drone based Delivery Service LiFi / CamCom Data Link for Drone based Onroad Delivery Service Tx : Lighting Device on Drone and Vehicles Rx : PD / CCTV Camera Modulations : OOK, VPPM, Offset-VPWM, Multilevel PPM, Inverted PPM, Subcarrier PPM, DSSS SIK etc. Day-Night Communication Mode Data Rate : 1K ~ 1Mb/s Supported LoS(Line of Sight) Available Distance : around 50m < LiFi / CamCom Link for Drone based onroad Delivery Service > Defines the future live delivery service to provide onroad delivery system model for future Slide 4 Submission Jaesang Cha, SNUST
July 2018 doc.: IEEE 15-18-0362-00-0vat Conclusion Proposed the Drone based Delivery Service using LiFi / CamCom Data Link for On Drive Time Delivery Uses the existing vehicle lighting system and camera built-in on vehicles and drone to develop the LiFi / CamCom data link between drone and car to allow drone to find the car of buyer. Provides the concept models of future live delivery system model and ease the delivery process. Slide 5 Submission Jaesang Cha, SNUST
