Page 714 - AI for Good Innovate for Impact
P. 714
AI for Good Innovate for Impact
Sustainable Cities and Communities: The solution supports digital inclusion by offering
affordable access to television services, particularly in underserved or rural areas. This enhances
access to information, education, and entertainment, fostering more connected and inclusive
communities while reducing the digital divide.
Responsible Consumption and Production: The project minimizes equipment redundancy by
enabling a single satellite dish to support multiple television service providers. This approach
reduces the need for multiple installations, conserves material resources, and encourages more
sustainable consumer behavior in the media and communication sector.
2�3 Future Work
• Integrate IoT dashboard for remote control and updates.
• Implement real-time weather tracking to proactively adjust dish before disturbances.
• Train AI model with large dataset of misalignment patterns for faster realignment.
• Collaborate with dish service providers for pilot rollout.
• Optimize system size and reduce power consumption using solar-based designs.
3 Use Case Requirements
REQ-01: Service Provider Selection and Retrieval of Pre-Stored Angle Data
It is critical that the system allows users to select their desired satellite service provider (e.g.,
Azam, DSTV, Zuku) through a simple interface. Upon selection, the system should automatically
retrieve and apply the corresponding pre-stored azimuth and elevation angle data for
accurate dish alignment. This ensures a seamless user experience and supports multi-provider
functionality without requiring technical expertise.
REQ-02: Motorized Dish Alignment Based on Angle Input
It is critical that the system includes a motorized mechanism capable of physically rotating
the satellite dish in both azimuth and elevation directions based on the angle data input. This
automated movement is essential for precise signal acquisition and eliminates the need for
manual dish adjustments.
REQ-03: Real-Time Feedback System for Signal Monitoring
It is expected that a real-time feedback mechanism is integrated into the system to continuously
monitor the signal strength received by the dish. This feedback loop enables the system to
assess alignment accuracy and detect any performance degradation caused by misalignment
or external disturbances.
REQ-04: Automatic Realignment Capability After Disturbances
It is critical that the system is capable of detecting misalignment events, such as those caused
by wind or vibration, and then automatically initiating a realignment process using the stored
reference data. This functionality ensures consistent signal availability and minimizes user
intervention.
REQ-05: Multi-Provider Switching Through Unified Interface
It is of added value that the system provides users with the ability to switch between different
service providers via a single, unified interface, with the dish automatically realigning based
on the new provider’s coordinates. This feature increases the utility of a single dish and offers
flexibility to users who subscribe to multiple services.
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