DTI 2.pptx of design thinking innovation
rayakalasandhyarani
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May 07, 2024
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It a project of design thinking innovation
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Mchcb fueieuc PROJECT PRESENTATION ON “Smart Adjustable Bridge automatic increase of height during flood” PRESENTED BY K.SIDDHARTH HEMANTH R.SHIVA SAI AKHILL R.AMARENDAR ROLL NO: 23R01A6621 23R01A6639 23R01A6646 23R01A6648 BRANCH : CSM-A Btech II sem UNDER THE GUIDANCE OF:- ASST.PROF. Vinod Gendre
CONTENT INTRODUCTION PROBLEM DEFINITION BLOCK DIAGRAM APPLICATIONS ADVANTAGES WORKING CONCLUSION REFERENCE
INTRODUCTION Bridges are essential infrastructure that connects different areas and makes transportation more accessible. However, they can be challenging to maintain, especially when water levels increase due to heavy rainfall or floods. In such cases, bridges can become dangerous, causing traffic to come to a halt or even collapse. To prevent this, engineers have developed an automatic height-adjusting bridge that can help to maintain the safety of the bridge even during heavy rain or floods.Smart adjustable bridge
PROBLEM DEFINITION •Floods lead to a vast loss of life and property in many countries. •The lack of proper technology leads to more loss of life and property due to flood. •Floods often leads to the catastrophic consequences, loss of life, restricted commerce. •There is a disaster there is loss of lives, damage to the public property .Smart adjustable bridge
BLOCK DIAGRAM Power supply Soil moisture Arduino uno Buzzer Servo Motor Bridge
1 . Flood Detection and alarm System. 2 •Hydraulic and Mechanical Systems. Flood detection system 3 •Traffic Continuity. 4 •Environmental Protection. hydraulic and mechanical system Fig. Environment Protection system Applications
ADVANTAGES -> Enhance safety by automatically adjusting the height of bridge during the floods. -> Enhance the resilience of bridge infrastructure to withstand extreme weather events. -> Minimizes disruption to transportation networks by maintaining access for emergency services and goods transportation. -> Effectiveness of integrating innovative solutions into critical infrastructure systems.
conclusion •From analyzing all the above systems, an automatic height-adjusting bridge would be a great application of Arduino, servo motors, and moisture sensors. • This system would help prevent accidents and provide a safer way for people to travel across bridges, especially during periods of heavy rainfall or flooding. •The project sets the precedent for future infrastructures project seeking to enhance resilience and adaptability in the face of climate change and other environmental threats . •The main advantage of this bridge system is that it can extend a network by acting as a repeater Bridges can reduce network traffic on a segment by subdividing network communications. •It can provide safety during natural disasters. It helps in ship transportation. It helps in minimizing the accidents. Smart adjustable bridge
Reference www.smartbridge.com www.sciencedirect.com www.smartinternz.com
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