Design of Smart Antennae for mmWave Communication

Project Title

Design of Smart Antennae for mmWave Communication

Project Area of Specialization Electrical/Electronic EngineeringProject Summary

mmWave 5G has brought a revolution in the field of communications with its large bandwidth and virtually no latency. But these small waves face huge path loss and highly directional antennae are required to compensate this. For this purpose smart antennae are required, which can actively form and steer the beam towards the intended user instead of the conventional omnidirectional pattern. This not only increases the range of a single antenna but also improves the overall coverage in a dense signal environment by reducing the interference.

The project focuses on the design and development of an experimental smart antenna which can operate at the commercial mmWave frequency band and steer its beam at a given angle, to be used for commercial applications. 

Project Objectives

Following are the main objectives of the project. 

• Literature review of the current mmWave literature and techniques used for beam steering.
• Design of a smart antenna and beam steering simulation.
• Fabrication and testing of the smart antenna and beam steering demonstration.

Project Implementation Method

Following methodology is proposed for the implementation of the project.

• To design a highly directional smart antenna, an extensive literature review is necessary for detailed knowledge or antennae and microwave devices. 
• The next task would be understanding the softwares and their interface. Only then an antenna can be designed and optimized successfully.
• To design an antennae at mmWave frequencies requires a suitable substrate and operating frequency. This would be done depending upon the knowledge gained from the literature review.
• The antenna array and its phase shifter network are designed in the next stage. This is to be done using ANSYS Antenna Design Toolkit and CST Microwave Studio. This initial design would be optimized using the built in parametric sweeps for final design specification.
• The last task would be the fabrication of final antenna design. This antenna would be tested for its actual performance along with beam steering demonstration.

Benefits of the Project

• The project would help with the development of the latest 5G technology within Pakistan. 
• The beam forming antenna have the potential of revolutionizing the telecommunication industry of Pakistan. 
• The project can also be developed to improve near field communication between IOT devices.

Technical Details of Final Deliverable

Following are the final deliverables of the project,

• Proof of concept of the smart antenna and beam steering.
• Design of a mmWave antennae for beam steering application.
• Simulation of the design with beam steering.
• A working model and demonstration meeting the minimum standards of antenna specifications.

Final Deliverable of the Project Hardware SystemCore Industry TelecommunicationOther Industries Education Core Technology OthersOther TechnologiesSustainable Development Goals Industry, Innovation and InfrastructureRequired Resources

Item Name	Type	No. of Units	Per Unit Cost (in Rs)	Total (in Rs)
			Total in (Rs)	80000
Substrate RT Duroid 5880	Equipment	1	50000	50000
Fabrication and testing facility	Miscellaneous	1	10000	10000
Connectors and cables	Equipment	2	10000	20000