MohamedElsyed2

BMS-for-Electric-Vehicles-

This repository contains my master's thesis, titled "Design and Implementation of Battery Management System for Electric Vehicles Based on Cloud Computing."

cloud_based__bms

This repository contains my master's thesis, titled "Design and Implementation of Battery Management System for Electric Vehicles Based on Cloud Computing."

CBBMS_UI

User Interface (UI) in a cloud-based battery management system (BMS).

EMBEDDED_LINUX

Embedded Linux and Build Systems (Yocto & Build Root)

Over-the-air-OTA-for-Embedded-Devices

Over-the-air (OTA) programming is the means by which an IoT device can be updated after it’s out in the field through a wireless connection. This can be advantageous for a host of reasons, as it offers: • the ability to add new software features to a product after a device has been deployed in the field; • the opportunity to rapidly respond to bugs and security vulnerabilities without the need for physical device recalls or truck rolls; • assurances that embedded developers can quickly prototype and seamlessly roll out new firmware versions.

test

TestRepo

MohamedElsyed2/EMBEDDED_LINUX

Embedded Linux and Build Systems (Yocto & Build Root)

MohamedElsyed2/test

MohamedElsyed2/CBBMS_UI

User Interface (UI) in a cloud-based battery management system (BMS).

MohamedElsyed2/cloud_based__bms

This repository contains my master's thesis, titled "Design and Implementation of Battery Management System for Electric Vehicles Based on Cloud Computing."

MohamedElsyed2/BMS-for-Electric-Vehicles-

This repository contains my master's thesis, titled "Design and Implementation of Battery Management System for Electric Vehicles Based on Cloud Computing."

MohamedElsyed2/Over-the-air-OTA-for-Embedded-Devices

Over-the-air (OTA) programming is the means by which an IoT device can be updated after it’s out in the field through a wireless connection. This can be advantageous for a host of reasons, as it offers: • the ability to add new software features to a product after a device has been deployed in the field; • the opportunity to rapidly respond to bugs and security vulnerabilities without the need for physical device recalls or truck rolls; • assurances that embedded developers can quickly prototype and seamlessly roll out new firmware versions.