Development Logics, together with Dharamshala.co and Vayudoot Internet Services, conducted an interactive technical learning session for students of Government Senior Secondary Girls School, Nagrota Bagwan. The goal was to provide practical exposure to communication technologies and help students understand how digital infrastructure powers the modern world.
Introducing Students to Fibre Optic Technology
The session began with a conceptual and practical overview of fibre optic communication — a core technology behind today’s digital transformation.
Students explored:
- How light-based data transmission works
- The internal structure of fibre cables
- Advantages of fibre — high speed, low latency, and reliability
- How fibre supports large-scale digital networks
The discussion focused on how fibre technology enables cloud computing, smart communication, and modern internet ecosystems.
Real-World Understanding of Fibre Types
Students were introduced to two commonly used fibre technologies:
Single Mode Fibre (SMF) – Used in long-distance and high-performance networks such as telecom and data backbone infrastructure.
Multi Mode Fibre (MMF) – Used in localized environments like schools, offices, and enterprise networks.
The session demonstrated how network design decisions depend on data load, distance, and performance goals.
Evolution from Copper to Fibre
To provide historical and technical context, the session covered copper-based communication systems.
Students learned:
- How copper cables transmit electrical signals
- Types like twisted pair and coaxial cables
- Limitations in speed, bandwidth, and distance
- The transition from copper to fibre in modern infrastructure
This helped students understand how communication technology has evolved to support today’s digital demands.
Importance of Network Management in Technology Infrastructure
The session emphasized that strong digital systems rely on efficient infrastructure management.
Students discovered:
- Importance of structured cabling
- Preventing physical damage and signal disruption
- Maintaining clean and stable fibre connections
- Monitoring and testing for performance
This introduced students to the practical side of technology operations and infrastructure engineering.
Understanding Fibre Splicing Technology
Splicing is the technique used to join fibre cables while maintaining signal continuity — a critical process in communication infrastructure.
Splicing Methods Explained
Fusion Splicing – Permanent fibre joining using heat, offering minimal signal loss and high performance.
Mechanical Splicing – Quick alignment method used for temporary restoration and rapid deployment.
Students learned how precision engineering ensures reliable communication networks.
Encouraging Technology Awareness and Career Curiosity
The session successfully connected academic learning with real-world technology applications. Development Logics focused on inspiring curiosity, technical thinking, and awareness about careers in networking, digital infrastructure, and modern technology fields.
By bringing practical knowledge into classrooms, the initiative aimed to nurture the next generation of engineers, innovators, and technology leaders ready to shape the digital future.