Next-Generation Optical Camera Communication in Virtual Power Plants

Slide Note
Embed
Share

The submission discusses the application of Next-Generation Optical Camera Communication (NG-OCC) in virtual power plants, highlighting its advantages in transmitting data efficiently and reliably in the energy sector. NG-OCC utilizes light for communication, minimizing interference risks and offering distinct benefits over RF-based communication. Its role in optimizing processes and efficiency in the age of sustainable development is emphasized.


Uploaded on Apr 05, 2024 | 5 Views


Download Presentation

Please find below an Image/Link to download the presentation.

The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author. Download presentation by click this link. If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.

E N D

Presentation Transcript


  1. March 2024 15-24-0152-00-07ma. Project: IEEE P802.15 Working Group for Wireless Specialty Networks (WSNs) Submission Title: OCC in Virtual Power Plant Use case for NG-OCC Date Submitted: March 11, 2024 Source: Herfandi Herfandi, Md . Shahriar Nazim, Md. Ibne Joha, Nguyen Ngoc Huy, Yeong Min Jang [Kookmin University] ByungDeok Chung [ENS Co. Ltd.] Address: Room #603 Mirae Building, Kookmin University, 77 Jeongneung-Ro, Seongbuk-Gu, Seoul, 136702, Republic of Korea Voice: +82-2-910-5068 E-Mail: yjang@kookmin.ac.kr Re: Abstract: Present the OCC in Virtual Power Plant Use case for NG-OCC Purpose: Presentation for contribution on IG NG-OCC Notice: This document has been prepared to assist the IG NG-OCC. 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 IG NG-OCC. Slide 1 Yeong Min Jang Submission

  2. March 2024 15-24-0152-00-07ma. OCC in Virtual Power Plant Use case for NG-OCC March 11, 2024 Slide 2 Yeong Min Jang Submission

  3. March 2024 15-24-0152-00-07ma. Contents Background NG-OCC in VPP Use Case in Virtual Power Plant Conclusion Slide 3 Yeong Min Jang Submission

  4. March 2024 15-24-0152-00-07ma. Background OCC uses cameras as receivers for signals. In industrial IoT, OCC can facilitate communication between devices, employing LEDs or digital signage as transmitters for reliable processes. IoT evolves from RFID to diverse sensors in local areas. In industrial IoT, advanced communication technology is vital for optimizing processes and efficiency. The implementation of IoT is discussed across various industries, including Industrial IoT. The adaptation of IoT systems to industry-specific characteristics, such as using specialized sensors in agriculture and vibration sensing systems in construction. Slide 4 Yeong Min Jang Submission

  5. March 2024 15-24-0152-00-07ma. NG-OCC in VPP In the age of sustainable development, the adoption of renewable energy sources has become paramount. The versatility of Next-Generation Optical Camera Communication (NG- OCC) makes it applicable across various sectors, particularly in the energy domain. NG-OCC, utilizing light as its communication distinct advantages over RF-based communication. frequencies, NG-OCC minimizes the risk of interfering with other sensors, making it a more efficient and reliable choice in the energy sector. medium, offers Unlike radio Slide 5 Yeong Min Jang Submission

  6. March 2024 15-24-0152-00-07ma. Use Case in Virtual Power Plant Intelligent Services PV Plant Administration Services Within the Virtual Power Plant (VPP), NG-OCC plays a crucial role in seamlessly transmitting data acquired from the PV plant to the database via the API. Boasting a capability, NG-OCC swift data transmission from the plant to the database. Moreover, its suitability environments potential applications. NG-OCC contributes to the stability of devices within the power plant, interference and optimizing the performance equipment. Prediction Site Management Group Management Facility & Device Management User Administration Services Site User Admin User Group User Anomaly Detection high data-rate ensures Message Queuing Data Storage MariaDB MQTT for enhances outdoor Cloud Server its Internet PV Plant 1 PV Plant n OCC Part OCC Part Edge Server Edge Server ... mitigating OCC OCC OCC Receiver OCC Receiver Transmitter Transmitter PV-PCS EMS(PMS) PV-PCS EMS(PMS) Environ. Device Environ. Device of installed ESS-PCS BMS Meas. Instr. ESS-PCS BMS Meas. Instr. Dist. Board Conn. Board Dist. Board Switch Board Conn. Board Switch Board intelligent IoT platform for multiple PV plant monitoring with OCC. Slide 6 Yeong Min Jang Submission

  7. March 2024 15-24-0152-00-07ma. Conclusion IoT systems are being adapted across various industries. Optical Camera Communication (OCC) is a promising technology utilized in industrial IoT. Next-Generation Optical Camera Communication (NG-OCC) offers significant advantage. NG-OCC plays a crucial role in Virtual Power Plants (VPPs), ensuring seamless transmission of data from photovoltaic plants to databases. Within VPPs, NG-OCC contributes to the stability of devices, mitigating interference and optimizing equipment performance. Slide 7 Yeong Min Jang Submission

  8. March 2024 15-24-0152-00-07ma. Reference 1. Utama, I.B.K.Y.; Pamungkas, R.F.; Faridh, M.M.; Jang, Y.M. Intelligent IoT Platform for Multiple PV Plant Monitoring. Sensors 2023, 23, 6674. https://doi.org/10.3390/s23156674 2. Herfandi, H.; Sitanggang, O.S.; Nasution, M.R.A.; Nguyen, H.; Jang, Y.M. Real- Time Patient Indoor Health Monitoring and Location Tracking with Optical Camera Communications on the Internet of Medical Things. Appl. Sci. 2024, 14, 1153. https://doi.org/10.3390/app14031153 3. Bin Mofidul, R.; Alam, M.M.; Rahman, M.H.; Jang, Y.M. Real-Time Energy Data Acquisition, Anomaly Detection, and Monitoring System: Implementation of a Secured, Robust, and Integrated Global IIoT Infrastructure with Edge and Cloud AI. Sensors 2022, 22, 8980. https://doi.org/10.3390/s22228980 Slide 8 Yeong Min Jang Submission

Related


More Related Content