Operating System IoT devices have limitations in computing capabilities, memory availability, communication, and energy limitations. However, IoT devices are required to meet the needs of cyber physical systems, including reliability, real-time behavior, and an adaptive communication stack to be able to connect and integrate with the internet without obstacles. This is a challenge in implementing an Operating System for IoT devices that must meet these needs and can work with a wide range of hardware. This challenge poses the following questions a. RIOT implements a microkernel architecture in its development. What are the advantages of implementing the microkernel. b. What are the features and advantages of RIOT so that it can be called a bridge between the OS for Wireless Sensor Network and the complete OS that generally runs on Personal Computers. c. What are the development goals and objectives of IoT OS RIOT
IoT devices have limitations in computing capabilities, memory availability, communication, and energy limitations. However, IoT devices are required to meet the needs of cyber physical systems, including reliability, real-time behavior, and an adaptive communication stack to be able to connect and integrate with the internet without obstacles. This is a challenge in implementing an Operating System for IoT devices that must meet these needs and can work with a wide range of hardware. This challenge poses the following questions
a. RIOT implements a microkernel architecture in
its development. What are the advantages of implementing the microkernel.
b. What are the features and advantages of RIOT so that it can be called a bridge between the OS for Wireless Sensor Network and the complete OS that generally runs on Personal Computers.
c. What are the development goals and objectives of IoT OS RIOT
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