Use Cases for Light Communications

Slides:

Advertisements

Similar presentations

Presenters: Adam Andy Andy Rachel

Advertisements

EMC Technology Roadmapping: A Long-Term Strategy Marcel van Doorn Philips Applied Technologies EM&C Competence Center Eindhoven, The Netherlands, March.

Intelligent Radio Frequency (RF) Monitoring © 2009 Armstrong International, Inc.

Climatic, Mechanical resistance and EMC requirements Russian justification Accident Emergency Call System (AECS) 4 th meeting Paris April 28 th - 30 th.

Wireless Networks This section Contain : 1) Wireless Basics. 2) Bluetooth. 3) Wi-Fi. 4) Wi-Fi Equipment. 5)Wi-Fi Setup.

OV Copyright © 2015 Logical Operations, Inc. All rights reserved. Unbounded Network Media  Wireless Networking  Wireless Network Devices and Components.

Presenters: Adam Andy Andy

Roadnet Vehicular Ad-Hoc Network System September 19, 2011 Andrew Crossman - CS

Submission November 2015 Slide 1Li Qiang, Huawei Technologies Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission.

Li-Fi & All about it Light Fidelity & How it will change the way we perform data transfers!!

Bitwali.com. CONTENTS  Present Scenario  Introduction  How Li-Fi Works  Wi-Fi Vs Li-Fi  Applications  Advantages  Limitations  Conclusion.

Types of Communication Device..

Wi-Fi Technology.

IEEE NPEC SC2 Equipment Qualification Electromagnetic Compatibility Compliance Type Test-Design Considerations- Installation and Mitigation Standard/Guidance.

How wi-Fi and Li-Fi are applied in medical environment

Light Communication Use-Cases

Gi-Fi Technology.

Artificial Intelligence IoT wireless Mesh monitor device (“WizardMesh”) for homeland security by: Dr. Nissim Zur

Instructor Materials Chapter 6 Building a Home Network

May 2015 doc.: IEEE /0496r1 January 2017

May 2015 doc.: IEEE /0496r1 January 2017

UKSG Introduction to Journals and E-Resources

By // Ammar Hussain Aljanabi Dr . Hadi Adineh

Testing for wireless coexistence: Methods and tools

Light Communications Experience of a Lighting Systems Manufacturer

SUBMITTED BY DINEEJ A 28 S3 EC

OCC and LiFi based Light Communication for 5G Revolution

Wireless Fidelity 1 1.

Professor Robert L. Heider, PE

Three types of wireless technology

Jul 12, /12/10 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: IG DEP Selected Applications.

Light Communications Experience of a Lighting Systems Manufacturer

Institution Affiliated

OCC and LiFi based Light Communication for 5G Revolution

LC use cases & requirements for PAR/CSD

Light Communications opportunities for a Mobile Service Offering

Project: IEEE P Interest Group for Wireless Personal Area Networks (WPANs) Submission Title: ITS OCC system based vehicle-to-vehicle communication.

Overview of CV2X Requirements

LiFi from the perspective of an enterprise AP vendor

Submission Title: [MAC requirements for the BAN]

16 November 2018 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: Call For Applications Response Date.

Use Cases for Light Communications

Wireless Industrial Networking Alliance The Promise of Wireless

Digitalization of Manufacturing

Use Cases for Light Communications

OCC and LiFi based Light Communication for 5G Revolution

Internal Automotive Use Cases

Security capabilities for Light Communications

doc.: IEEE <doc#>

Light communication Use case: low latency audio in the cockpit

LC Usage Model Date: Authors: May 2018

Communicating Wake-up Operating Parameters

doc.: IEEE <doc#>

Use Cases for Light Communications

doc.: IEEE <doc#>

<month year> 2/25/2019<month year> doc.: IEEE Sept

LC use cases & targets for PAR/CSD

Xiuzhen Cheng Csci332 MAS Networks – Challenges and State-of-the-Art Research – Wireless Mesh Networks Xiuzhen Cheng

PICS PC items Date: Author: April 2019 May 2015

Data density for Light Communications

Submission Title: [MAC requirements for the BAN]

Light Communications Topic Interest Group July 2017 Closing Report

Light Communications Study Group May 2018 Closing Report

Communicating Wake-up Operating Parameters

Developing Vehicular Data Cloud Services in the IoT Environment

Wireless Standards.

Light Communications considerations for lighting manufacturers

3.3 Mobile Digital Communication

Stable connection More secure More vulnerable to hacking Cheap set up costs Generally will have a good quality signal The connection is not as stable.

May 2015 doc.: IEEE /0496r1 March 2019 IEEE TG13 Multi-Gbit/s Optical Wireless Communication Agenda for the Atlanta Session Date:

Presentation transcript:

Use Cases for Light Communications May 2015 doc.: IEEE 802.11-15/0496r1 November 2017 Use Cases for Light Communications Date: 2017-11-04 Author: Name Company Address Phone Email Mohammad Noshad VLNComm Inc noshad@vlncomm.com Xu Wang wang@vlncomm.com Mohammad Noshad (VLNComm) Edward Au (Marvell Semiconductor)

LC Use Cases Vehicle to Vehicle Communications November 2017 LC Use Cases Vehicle to Vehicle Communications Manufacturing and Harsh Environments Power Plants Nuclear Facilities Mohammad Noshad (VLNComm)

LC for V2V and V2X Communications November 2017 LC for V2V and V2X Communications V2V and V2X include inter and intra vehicle networks LC can help to reduce the interference between these networks Mohammad Noshad (VLNComm)

Manufacturing and Harsh Environments November 2017 LC Application in Manufacturing and Harsh Environments Wi-Fi cause interference on RF devices in these environments Large number of users and robots need to be connected to network Even wired networks are not completely practical due to the moving robots or arms Mohammad Noshad (VLNComm)

November 2017 The electro magnetic radiance from power generators, voltage converters and transmission lines cause interference on RF systems in power plants LC can provide a safe and reliable wireless communication technique, specially in emergency LC for Power Plants Mohammad Noshad (VLNComm)

LC for Nuclear Facilities November 2017 There are three major issues Electromagnetic compatibility (EMC) or interference (EMI) issues Cyber security Installation issues due to the type of the building strcture In nuclear power plant control rooms, radio devices have been banned because of concerns about interference to the instrumentation and control equipment. NO Wi-Fi or Bluetooth is permitted. Wired network is costly and bulky A mesh network using of LED lights can reduce the pain LC for Nuclear Facilities Mohammad Noshad (VLNComm)

LC-based Wireless Sensor Networks in Nuclear Facilities November 2017 LC-based Wireless Sensor Networks in Nuclear Facilities Measurement and control, condition monitoring, predictive maintenance, and management of operational transients and accidents Integrated networks of wireless sensors that can be used to measure parameters in order to improve process safety and efficiency, increase output, and optimize maintenance activities Mohammad Noshad (VLNComm)