CIS4019-N Developing software to facilitate higher-level data processing of data obtained from IoT devices, evaluating how well it meets specified requirements.
"Element one will involve a IOT application design proposal for a specific scenario and will assess learning outcomes 1,2,3,5 and 6. Students will be assessed via a written report around 2000 words on
Their ability to communicate clearly and professionally regarding technical issues in an IoT network and security.
Use of evidence-based decisions when selecting technologies and software to provide communication with low-level firmware on embedded devices.
Demonstrating a comprehensive knowledge of the key concepts of IoT and its enabling technologies.
Developing software to facilitate higher-level data processing of data obtained from IoT devices, evaluating how well it meets specified requirements.
Designing and building (or simulate) a sensor network based on Internet of Things technology, considering potential professional and ethical issues associated with the network`s operation.
Your Task
You will work in groups (3-4 persons) and write a report of around 2000 words describing design and simulation of new system. It will include two parts
Part 1:
a. Overall Architecture and Design of the system
b. Details of the design of the IOT system and justification of selected technologies and software to provide communication: including.
The HW platform/ Processor (s) The operating system and drivers.
The sensors and actuators.
The physical channel?-?BLE/Zigbee etc (Remember short range/ not to interfere with other).
The logical channel?-?What protocols the SW uses to transport these messages (HTTP / MQTT etc).
Network/connectivity topology
Maintenance.
Data Storage.
Data Access.
Cost
Part 2:
c. Your report must also include details of simulation of the given scenario to demonstration communication using appropriate simulation tool. You can include screenshots/results/ code etc. Requirement of the simulation are
i A static network of 50+ nodes with one or two base station nodes ii Tracking of a moving node (luggage)
iii Transmission of approximate Current location (of moving node) to base station at periodic intervals