ONS 316332 Manual Answer: Optical Network and Satellite Communication

Optical Network and Satellite Communication ONS 316332 Lab Manual solutions are given under this article.

This course, Optical Network and Satellite Communication, focuses on the exchange of data and information, where optical networks are crucial for high-speed, high-bandwidth, and secure communication on Earth, while satellite communication is essential for global connectivity, particularly in remote areas.

Students will gain comprehensive knowledge of Optical Networks and Satellite Communications by completing these practical exercises.

ONS 316332 Manual Answer K Scheme

• Practical No.1: Identification of optical components and cables.

• Practical No.2: Identification of core, cladding and coating of optical fiber cable.

• Practical No.3: Find the numerical aperture of the optical fiber.

• Practical No.4: Test the performance of an Avalanche Photodiode (APD).

• Practical No. 5: Analysis of Photodiode Characteristics.

• Practical No.6: Measurement of light intensity and photocurrent at various positions for a given photodiode.

• Practical No.7 Find the bit error rate (BER) at the optical channel receiver.

• Practical No.8: Measurement of various parameters of eye pattern.

• Practical No.9: Measurement of attenuation loss in optical fiber.

• Practical No.10 Measurement of bending loss of given optical fiber cable.

• Practical No. 11: Measurement of optical power using optical meter.

• Practical No. 12 Computation of Link Power Budget for Fiber Optics using coding.

• Practical No. 13 Computation of rise time budget w.r.t. fiber optics through coding.

• Practical No. 14: Establishing an active satellite link and demonstrating link failure Operations.

• Practical No. 15: Establish a Direct Communication Link between the Uplink Transmitter and Downlink Receiver Using a Tone Signal

• Practical No. 16: Establishing audio video satellite link between transmitter and receiver.

• Practical No. 17: Simultaneous Transmission and Reception of Audio, Video, and Tone/Voice Signals via Satellite Link.

• Practical No. 18: Evaluating satellite link performance by transmitting telecommands and receiving telemetry data.

• Practical No. 19: Transmission and reception of function generator waveforms through satellite communication link.

• Practical No.20: Calculation of Satellite Look Angles (Azimuth & Elevation) Using Coding.

• Practical No. 21: Simulating and validating Kepler’s laws of planetary motion using code.

• Practical No. 22: Simulation of Satellite Eclipse Periods through coding.

• Practical No. 23: Measurement of the carrier-to-noise ratio (C/N) of the established satellite link.

• Practical No. 24: Establish a direct communication link between two PCs using RS-232 serial ports.

• Practical No. 25: Find rain attenuation through coding.

• Practical No.26: Simulation of satellite link budget through coding.

• Practical No:.27: Analysis of reliability in satellite system.

• Practical No.28: Find EIRP of any given satellite communication link through coding.

Conclusion

All the latest practical solutions for the Optical Network and Satellite Communication manual are given above. Share it with your friends and classmates.

EJ 6K All Manuals