3. The problem statement revolves around the need for an efficient and
intelligent street lighting system. Traditional street lighting systems are
often static and do not adapt well to changing environmental conditions,
resulting in unnecessary energy consumption and higher operational costs.
Additionally, manual monitoring and maintenance of these systems can be
cumbersome and expensive. The goal is to create a smart street light
solution that addresses these issues through the implementation of LoRa
(Long Range) communication technology.
PROBLEM STATEMENT
4. TARGET AUDIENCE
The target audience for this smart street light system includes municipal
authorities, city planners, and organizations responsible for managing public
infrastructure. Additionally, the system aims to benefit residents and businesses by
providing better lighting conditions, reducing energy costs, and contributing to
overall sustainability efforts. The solution is designed to be scalable and adaptable
to the needs of both urban and rural environments.
5. The context for implementing LoRa in a smart street light system lies in its
ability to enable long-range, low-power communication between devices.
LoRa technology is well-suited for applications like smart city infrastructure
due to its ability to cover wide areas with minimal power consumption. In the
case of smart street lights, LoRa can be used for communication between
individual lights, a central control system, and possibly other sensors or
devices integrated into the urban environment.
CONTEXT
6. Energy Efficiency
MAIN FEATURES
Smart street lights can
dynamically adjust their
brightness based on real-
time environmental
conditions, reducing
unnecessary energy
consumption during periods
of low activity.
Cost Savings
By optimizing energy usage
and enabling proactive
maintenance, the smart
street light system can lead
to significant cost savings
for municipalities in terms of
both energy expenses and
maintenance costs.
Scalability
The use of LoRa allows for
easy scalability, making it
feasible to deploy the smart
street light system in
various urban and rural
settings.
10. What's the answer?
Traditional street lighting systems lack adaptability and efficiency, resulting
in unnecessary energy consumption and high operational costs. Manual
monitoring and maintenance are cumbersome, leading to suboptimal
performance. The challenge is to develop a smart street light system using
LoRa technology to enable remote monitoring, dynamic control, and efficient
energy use, addressing the shortcomings of conventional systems. This
solution aims to benefit municipal authorities, city planners, and residents by
offering a scalable, cost-effective, and environmentally friendly approach to
urban lighting infrastructure.
11. USER PERSONA
Ali firoz
To test the prototype and to Reliability, Scalability , and
Performing test
Problems faced are changing the brightness of street light
Age 22 / Male / btech student
12. BRAINSTORMING AND IDEATION
FOOD FOR NEEDY
PEOPLE
The core objective of "Food for
Needy" is to provide sustenance and
support to individuals and families
struggling with food insecurity. This
charitable effort involves
collecting, preparing, and
distributing food to those in need,
ensuring that no one goes to bed
hungry. The program operates on
the principles of equality, dignity,
and community support.
SAVE
ELECTRICITY
"Save Electricity" is a rallying cry for
individuals, businesses, and communities
to adopt energy-efficient practices in
order to reduce their overall electricity
consumption. As a valuable and finite
resource, electricity production often
relies on non-renewable energy sources,
contributing to environmental
degradation and climate change. By
actively participating in efforts to save
electricity, we can promote sustainability,
reduce our carbon footprint, and
contribute to a cleaner, greener future..
SAVE
WATER
"SAVE Water" is a call to action
emphasizing the critical importance of
water conservation in our daily lives and
the broader environment. Water is a
finite resource, and as the global
population grows, the demand for water
increases. Sustainable water
management is essential to ensure a
secure and sufficient water supply for
current and future generations.
13. Final Idea
In our rapidly evolving urban
landscapes, the "SMART STREET
LIGHT" project introduces a cutting-
edge Smart Street Light System,
leveraging the power of LoRa (Long
Range) technology. This innovative
solution redefines traditional street
lighting, offering a sustainable and
intelligent approach to illuminate our
streets.
14. Concept and Images
A smart street light system using LoRa
(Long Range) technologycapabilities to
enhance the efficiency and functionality
of traditional street lighting. Here's an
explanation of how a smart street light
system using LoRa works
LoRa is a low-power, long-range wireless
communication technology designed for
applications. It enables devices to
communicate over significant distances
while consuming minimal power, making
it suitable for remote and battery-
powered applications.
17. USER TESTING
Main inputs from User-testing
1. Overall User Experience:
Users appreciated the concept of smart street lights.
Remote control and monitoring were highlighted as valuable features.
users mentioned experiencing delays in brightness changes, affecting the overall responsiveness of the system.
2. Delays in Brightness Changes:
Participants noticed occasional delays ranging when the system responded to changes in ambient light or motion detection.
User Comments:
"The lights took a bit longer to adjust when I walked past."
"I noticed a delay when the surroundings suddenly got darker or brighter."
3. Suggestions for Improvement:
Faster Response Time:
Users suggested reducing the delay in brightness adjustments for a more immediate response.
18. ITERATION
The testing provided valuable insights
into user experiences with the smart
street light system, emphasizing the need
for improvements in system
responsiveness. The feedback collected,
including suggestions for faster response
times and fine-tuning controls, will guide
enhancements to ensure a more efficient
and satisfactory user experience.
Additionally, addressing reliability
concerns, especially during adverse
weather, will be crucial for the overall
success of the system.
