Uploaded byKrunal Siddhapathak
Musketeers mind rover
This document outlines the design of a vehicle called the CAR-O-BIKE that can transform between a four-wheeled configuration and two detached two-wheeled configurations. The key modules that control the vehicle include an Electronic Control Module, Vehicle Control Module, fault detecting unit, and vehicular ad-hoc network. The design has several advantages such as being cost effective, environmentally friendly with no emissions, safe due to a mesh structure body, and time saving through the use of an ad-hoc network to provide optimal routes. Additional supporting factors and annexes with diagrams are also included to further explain the design.
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Musketeers mind rover
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- 2. Presentation Outline 2 1. Design2. Main Modules 3. Module Description 4. Advantages 5. Lane-Bridge 6. Design Supporting Factors 7. Annexure
- 3. Design Vehicle name: CAR-O-BIKE 4-wheeler = 2-wheeler + 2-wheeler or 2-wheeler + 2-wheeler = 4-wheeler 4-wheeler can be detached into two 2-wheeler and vice versa. Structure of 2-wheeler is like a bike with upper cover similar to car. 2-wheeler consists of four windows which are controlled manually. Two windows of 2-wheeler moves inside body during transformation One side of 2-wheeler consists of border frame which is pneumatically controlled. Pneumatic of both 2-wheelers aid together to make 4-wheeler. Design of Car-o-Bike is attached in annexure(slide no. 11) 3
- 4. Main Modules ElectronicControl Module(ECM) Vehicle Control Module(VCM) Fault detecting unit Vehicular ad-hoc network Mesh structure Block diagram is attached in annexure(slide no. 12) 4
- 5. Module Description ElectronicControl Module: Brain of the vehicle Electrically controls the entire movement of the vehicle. Three ECM modules - one for 4-wheeler and two for the 2-wheelers Vehicle Control Module: Controls the transformation from 2-wheeler to 4-wheeler and vice versa Controls the movement of internal parts Mesh structure: Body made up of mesh structure Protects vehicle from any damage 5
- 6. Module Description(Cont.) Faultdetecting unit: Detects any fault in 2-wheeler or 4-wheeler Checks all the three units – ECM, VCM and vehicular ad-hoc network Detected fault will be displayed as an error message. GSM module will send error message to nearest service center. Vehicular ad-hoc network: Vehicle connected to a ad-hoc network Network sends easiest route to reach destination. Person can reach the destination hassle free. Will work in parallel with the GSM module. 6
- 7. Advantages Cost effective: One vehicle = one car + two bikes Electricity less costly than petrol/diesel Go green: No emission like CO2 No other toxious emission Safety: Mesh structure provides safety Fully covered body 7
- 8. Advantages(Cont.) Time saver: Vehicular ad-hoc network Consumer attraction and satisfaction: Economic Technology Design Less risk: Electricity used in place of petrol/diesel 8
- 9. Lane-Bridge Bridge: Tosolve the traffic problem, structure shown in the figure attached in annexure(slide no. 13) is proposed. Lane: For peak traffic, structure shown in figure attached in annexure(slide no. 14) is proposed. 9
- 10. Design supporting factors Source of electric energy: Silicon graphene helps to improve life as well as discharging time of battery Sun-charged heat batteries(annexure - slide no. 19) Graphene Battery Turns Ambient Heat into Electric Current(annexure - slide no. 19) Electric charging station: Various charging station will replace petrol/diesel station. Charging wirelessly through “highly coupled magnetic resonance”(annexure - slide no. 20) Price analysis: Why electric cars are cost-effective over petrol/diesel? (shown in the annexure section(slide no. 15 to 18)) 10
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- 12. Annexure(Cont.) 12Block Diagram ofinternal modules
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- 14. Annexure(Cont.) 14Lane division andBridge structure
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