Self balancing vehicle.ppt BY -DINESH KR. JAIPURbasaith
This document discusses self-balancing vehicles, specifically the Segway. It provides a brief history of transportation and defines a self-balancing vehicle as one that uses sensors, gyros, and accelerometers along with a motor to help riders balance on a single-wheeled vehicle. Examples are given of different Segway models, and the key components of the Segway like its batteries, frame, and wireless controller are described. The document explains how gyroscopes and tilt sensors allow the Segway to detect the rider's movements and maintain balance. Advantages of the Segway like reducing emissions and avoiding traffic are highlighted.
This document describes a smart helmet system that uses sensors and wireless communication to improve rider safety. The system detects if the rider has been in an accident using an accelerometer. It also checks if the rider has been drinking alcohol and whether they are wearing a helmet before allowing the bike to start. If an accident occurs, the helmet sends an alert message with the rider's location to registered contacts using GPS and GSM. The system aims to reduce accidents by ensuring safe riding conditions and enabling faster emergency response when needed.
This document describes a system called "Accident Detection, Theft and Drive Protection using Intelligent Wireless Safety Helmet". The system consists of a helmet unit and vehicle unit that communicate wirelessly. The helmet unit ensures the rider is wearing a helmet and not under the influence of alcohol throughout the ride. If these conditions are not met, it communicates with the vehicle unit to prevent the ignition from starting. The vehicle unit detects accidents using sensors and notifies emergency contacts by SMS with the rider's location using GPS coordinates. The system also provides theft protection as the helmet is required along with the key to start the vehicle.
As it is mentioned in its name it is a helmet with smart functionalities.It provides the users with high level safety to reduce the probability of two wheeler accidents and drunk drive cases.
The document discusses electric bicycles (e-bikes), including their history, components, types, usage trends, and advantages/disadvantages. E-bikes have integrated electric motors and rechargeable batteries to provide propulsion assistance up to 25-32 km/h depending on local laws. They became popular in the late 1890s and have grown dramatically worldwide since 1998, especially in China and Europe. E-bikes are classified based on how their electric motor power is applied, either through pedal-assistance or throttle control. Their main components are motors, batteries, and controllers.
Ultrasonic sensors are used to detect vehicles in parking spaces and determine if they are occupied or vacant. The smart parking system uses ultrasonic sensors above each space to measure distance - a short distance means the space is occupied, while a longer distance means it is empty. When a vehicle enters or leaves a space, the ultrasonic sensor detects the change in distance and the LCD display is updated to show the space status as full or empty. The system aims to help drivers find vacant spaces more quickly.
Embedded systems play a key role in modern automobiles, controlling many safety and convenience features. They combine hardware and software to perform dedicated tasks. Examples of embedded systems in cars include airbags, anti-lock braking systems, adaptive cruise control, traction control and stability control. These systems use sensors and microprocessors to monitor conditions in real-time and activate features like airbags during a crash or apply brakes to individual wheels to maintain control on slippery roads. Embedded systems are critical for advanced driver assistance technologies and fully autonomous vehicles of the future.
Self balancing vehicle.ppt BY -DINESH KR. JAIPURbasaith
This document discusses self-balancing vehicles, specifically the Segway. It provides a brief history of transportation and defines a self-balancing vehicle as one that uses sensors, gyros, and accelerometers along with a motor to help riders balance on a single-wheeled vehicle. Examples are given of different Segway models, and the key components of the Segway like its batteries, frame, and wireless controller are described. The document explains how gyroscopes and tilt sensors allow the Segway to detect the rider's movements and maintain balance. Advantages of the Segway like reducing emissions and avoiding traffic are highlighted.
This document describes a smart helmet system that uses sensors and wireless communication to improve rider safety. The system detects if the rider has been in an accident using an accelerometer. It also checks if the rider has been drinking alcohol and whether they are wearing a helmet before allowing the bike to start. If an accident occurs, the helmet sends an alert message with the rider's location to registered contacts using GPS and GSM. The system aims to reduce accidents by ensuring safe riding conditions and enabling faster emergency response when needed.
This document describes a system called "Accident Detection, Theft and Drive Protection using Intelligent Wireless Safety Helmet". The system consists of a helmet unit and vehicle unit that communicate wirelessly. The helmet unit ensures the rider is wearing a helmet and not under the influence of alcohol throughout the ride. If these conditions are not met, it communicates with the vehicle unit to prevent the ignition from starting. The vehicle unit detects accidents using sensors and notifies emergency contacts by SMS with the rider's location using GPS coordinates. The system also provides theft protection as the helmet is required along with the key to start the vehicle.
As it is mentioned in its name it is a helmet with smart functionalities.It provides the users with high level safety to reduce the probability of two wheeler accidents and drunk drive cases.
The document discusses electric bicycles (e-bikes), including their history, components, types, usage trends, and advantages/disadvantages. E-bikes have integrated electric motors and rechargeable batteries to provide propulsion assistance up to 25-32 km/h depending on local laws. They became popular in the late 1890s and have grown dramatically worldwide since 1998, especially in China and Europe. E-bikes are classified based on how their electric motor power is applied, either through pedal-assistance or throttle control. Their main components are motors, batteries, and controllers.
Ultrasonic sensors are used to detect vehicles in parking spaces and determine if they are occupied or vacant. The smart parking system uses ultrasonic sensors above each space to measure distance - a short distance means the space is occupied, while a longer distance means it is empty. When a vehicle enters or leaves a space, the ultrasonic sensor detects the change in distance and the LCD display is updated to show the space status as full or empty. The system aims to help drivers find vacant spaces more quickly.
Embedded systems play a key role in modern automobiles, controlling many safety and convenience features. They combine hardware and software to perform dedicated tasks. Examples of embedded systems in cars include airbags, anti-lock braking systems, adaptive cruise control, traction control and stability control. These systems use sensors and microprocessors to monitor conditions in real-time and activate features like airbags during a crash or apply brakes to individual wheels to maintain control on slippery roads. Embedded systems are critical for advanced driver assistance technologies and fully autonomous vehicles of the future.
- People would have more free time that could be spent working, relaxing, or socializing while in transit instead of focusing on driving.
- Public transportation usage may increase as self-driving cars could provide convenient door-to-door mobility.
- New types of businesses catering to passengers in self-driving vehicles may emerge, such as mobile offices or entertainment venues.
The document discusses autonomous cars, including their history from early experiments in the 1920s to working prototypes in the 1980s. It describes the key components of autonomous cars like LIDAR, radar, cameras and GPS that work together to navigate and drive the vehicle without human assistance. The document also outlines some advantages like increased safety and productivity, as well as challenges to widespread adoption like sensor limitations in heavy weather and high manufacturing costs.
1. The document discusses embedded systems used in automobiles, including components like airbags, ABS, traction control, adaptive cruise control, and drive-by-wire systems.
2. It describes how various automotive safety and driver assistance systems work, such as how airbags restrain passengers on impact based on Newton's laws, and how ABS sensors and control units prevent wheel lockups.
3. Embedded systems in cars provide sophisticated functionality to run algorithms and interfaces while meeting deadlines, at low power and cost to implement technologies like dynamic stability control and adaptive cruise control with collision warning.
The document summarizes an ultrasonic radar project presented by students. It includes an introduction to radar technology and ultrasonic sensors. It describes the components used - an Arduino board, ultrasonic sensor, and servo motor. It explains how ultrasonic pulses detect distance and the servo motor rotates the sensor to map surroundings. Distances are plotted on a graph using Processing IDE to simulate radar detection of objects. Potential applications of radar technology are discussed like air traffic control and security systems.
This presentation discusses auto pilot technology for vehicles. It introduces auto pilot technology as a way to enable self-driving vehicles that can steer, park and drive themselves on highways without human control. The key components that enable auto pilot include display units, radars, sensors and advanced GPS mapping systems. Radars detect objects up to 180 feet away while sensors monitor road conditions and angles to help the control unit navigate safely. Auto pilot technology aims to reduce accidents by taking over driving tasks but hackers changing routes and sensor failures present risks. The presentation concludes that fully implementing auto pilot could significantly reduce accidents and work towards an accident-free world.
This document discusses traffic enforcement cameras, also known as speed cameras. It begins by introducing the purpose of using speed cameras to reduce traffic violations and enforce speed limits. It then provides details on the types of cameras, including fixed cameras mounted on poles or over roads, mobile cameras, and average speed cameras that calculate a vehicle's speed over a distance. The document discusses the technology behind automatic license plate recognition and how average speed cameras systems work. It concludes by noting that while speed cameras help enforce safety, some drivers try to avoid or evade them, though most of these attempts are illegal.
The document discusses autonomous vehicles and their components. It notes that autonomous vehicles can drive themselves without human assistance using sensors like LIDAR, radar, cameras and ultrasonic sensors connected to a central CPU. The document provides a brief history of autonomous vehicles, outlines the hardware components and their functions. It also discusses some of the work done on autonomous vehicles between 2012-2020, and lists potential advantages like reduced accidents and disadvantages like hacking risks.
This document discusses self-driving or autonomous vehicles. It provides an introduction to autonomous cars and their ability to sense surroundings using sensors and computer vision. The document outlines some of the technologies used in autonomous vehicles, including radar, lidar, GPS, cameras, ultrasonic sensors and more. It describes how components like ABS, electronic stability control, adaptive high beams, night vision and parking sensors contribute to autonomous functionality. The document discusses advantages such as reduced accidents and improved mobility for disabled/elderly, as well as disadvantages including job loss and hacking risks. It concludes that autonomous vehicles could significantly reduce traffic and avoid accidents by 2020.
This document describes a hand gesture controlled wireless land rover. The project uses an accelerometer to detect hand gestures which are transmitted via RF to control motors and move the land rover in four directions. The key components are a microcontroller, accelerometer, encoder, transmitter, receiver, motor driver and motors. Programming is done using AVR studio to flash the microcontroller. Advantages include compact size and wireless control using natural hand gestures. Future enhancements could include onboard controls, image processing for improved sensitivity and gyro sensors.
The document evaluates proposals from three companies for an RFID door lock system for a bank building. It analyzes the proposals based on cost, maintenance, security, and efficiency. The evaluation finds that the active RFID system best meets the criteria, being more secure and efficient while still affordable. It is recommended to purchase the active RFID locks to ensure safety of employees and property within the budget.
The group formed to develop a smart helmet for cyclists. They evaluated ideas like a microwave communication system and security alarm but chose the smart helmet as it addressed safety. The helmet uses ultrasonic sensors and circuitry to alert cyclists and drivers of nearby vehicles via lights and sounds. It was designed to fit well and be affordable. Through testing different prototypes, the group completed the project within 7 weeks and presented their double diamond design process and smart helmet.
The document describes the design of an intelligent shopping trolley system that uses RFID and other technologies to automatically calculate bills, provide offer information to customers, and streamline the checkout process. The system is intended to make shopping faster, easier and cheaper by avoiding long payment lines, informing customers of deals, and allowing them to see billing details in advance. Key components of the system include an RFID reader, ZigBee module, display, and Arduino board to control operations and interface with a PC for processing payments.
The document discusses embedded systems and their applications. It notes that embedded systems are controlled by microprocessors and use firmware. They are found in vehicles, medical devices, industrial systems, communications, and more. Adaptive cruise control is discussed as an example, using Doppler radar to maintain safe distances from other cars.
This document summarizes a major project report submitted by Abhilash Dandotiya and Sarthak Agrawal for their Bachelor's degree in Electronics and Communication Engineering. The project is titled "SMART HELMET" and aims to design a helmet that can autonomously detect accidents using a transmitter and receiver circuit along with a microcontroller. The microcontroller used is an ATMEGA 8 chip. The project involves designing printed circuit boards for the transmitter and receiver, interfacing a GSM module, and programming the microcontroller with C language to send SMS messages in the event of an accident detection.
This document discusses vehicle-to-vehicle communication (V2V) through wireless technologies. V2V allows vehicles within a quarter kilometer of each other to automatically detect their position and movements in order to anticipate hazards and avoid accidents. It works through short-range wireless protocols like IEEE 802.11 to quickly establish ad-hoc networks between nearby vehicles and share real-time location data. Potential applications include navigation assistance, traffic information, remote diagnostics, collision avoidance systems, and stolen vehicle tracking. The document also reviews technologies involved like GPS, Bluetooth, ZigBee, and Ultra Wideband.
This document discusses self-driving cars and machine learning algorithms. It describes how self-driving cars can navigate without human input using sensors to perceive the environment. The document outlines that machine learning algorithms like regression, pattern recognition, clustering, and decision matrices are used to classify objects, predict events, and determine navigation. Both advantages like safety and disadvantages like limitations and hacking risks of autonomous vehicles are presented.
Vechicle accident prevention using eye bilnk sensor pptsatish 486
This document describes a vehicle accident prevention system using an eye blink sensor. The system uses an IR sensor to detect a driver's eye blinks and a microcontroller to process the sensor data. If no eye blinks are detected for a period of time, indicating potential drowsiness, the system will stop the vehicle and trigger an alarm to prevent accidents. The system could also be expanded in the future to detect alcohol and stop the vehicle if the driver is intoxicated.
Presentation on To study the concept of comparison between Activa, Dio, Unic...VisualBee.com
The document provides information on Honda Motorcycle brands including Activa, Dio, Unicorn, and Shine. It discusses the key features and specifications of each model. The study aims to understand customer satisfaction regarding these Honda motorcycle brands and the factors influencing customers' choices. It will use a survey questionnaire to collect primary data from 100 customers aged above 18 years across India. Both primary and secondary research methods are adopted to collect and analyze data.
- People would have more free time that could be spent working, relaxing, or socializing while in transit instead of focusing on driving.
- Public transportation usage may increase as self-driving cars could provide convenient door-to-door mobility.
- New types of businesses catering to passengers in self-driving vehicles may emerge, such as mobile offices or entertainment venues.
The document discusses autonomous cars, including their history from early experiments in the 1920s to working prototypes in the 1980s. It describes the key components of autonomous cars like LIDAR, radar, cameras and GPS that work together to navigate and drive the vehicle without human assistance. The document also outlines some advantages like increased safety and productivity, as well as challenges to widespread adoption like sensor limitations in heavy weather and high manufacturing costs.
1. The document discusses embedded systems used in automobiles, including components like airbags, ABS, traction control, adaptive cruise control, and drive-by-wire systems.
2. It describes how various automotive safety and driver assistance systems work, such as how airbags restrain passengers on impact based on Newton's laws, and how ABS sensors and control units prevent wheel lockups.
3. Embedded systems in cars provide sophisticated functionality to run algorithms and interfaces while meeting deadlines, at low power and cost to implement technologies like dynamic stability control and adaptive cruise control with collision warning.
The document summarizes an ultrasonic radar project presented by students. It includes an introduction to radar technology and ultrasonic sensors. It describes the components used - an Arduino board, ultrasonic sensor, and servo motor. It explains how ultrasonic pulses detect distance and the servo motor rotates the sensor to map surroundings. Distances are plotted on a graph using Processing IDE to simulate radar detection of objects. Potential applications of radar technology are discussed like air traffic control and security systems.
This presentation discusses auto pilot technology for vehicles. It introduces auto pilot technology as a way to enable self-driving vehicles that can steer, park and drive themselves on highways without human control. The key components that enable auto pilot include display units, radars, sensors and advanced GPS mapping systems. Radars detect objects up to 180 feet away while sensors monitor road conditions and angles to help the control unit navigate safely. Auto pilot technology aims to reduce accidents by taking over driving tasks but hackers changing routes and sensor failures present risks. The presentation concludes that fully implementing auto pilot could significantly reduce accidents and work towards an accident-free world.
This document discusses traffic enforcement cameras, also known as speed cameras. It begins by introducing the purpose of using speed cameras to reduce traffic violations and enforce speed limits. It then provides details on the types of cameras, including fixed cameras mounted on poles or over roads, mobile cameras, and average speed cameras that calculate a vehicle's speed over a distance. The document discusses the technology behind automatic license plate recognition and how average speed cameras systems work. It concludes by noting that while speed cameras help enforce safety, some drivers try to avoid or evade them, though most of these attempts are illegal.
The document discusses autonomous vehicles and their components. It notes that autonomous vehicles can drive themselves without human assistance using sensors like LIDAR, radar, cameras and ultrasonic sensors connected to a central CPU. The document provides a brief history of autonomous vehicles, outlines the hardware components and their functions. It also discusses some of the work done on autonomous vehicles between 2012-2020, and lists potential advantages like reduced accidents and disadvantages like hacking risks.
This document discusses self-driving or autonomous vehicles. It provides an introduction to autonomous cars and their ability to sense surroundings using sensors and computer vision. The document outlines some of the technologies used in autonomous vehicles, including radar, lidar, GPS, cameras, ultrasonic sensors and more. It describes how components like ABS, electronic stability control, adaptive high beams, night vision and parking sensors contribute to autonomous functionality. The document discusses advantages such as reduced accidents and improved mobility for disabled/elderly, as well as disadvantages including job loss and hacking risks. It concludes that autonomous vehicles could significantly reduce traffic and avoid accidents by 2020.
This document describes a hand gesture controlled wireless land rover. The project uses an accelerometer to detect hand gestures which are transmitted via RF to control motors and move the land rover in four directions. The key components are a microcontroller, accelerometer, encoder, transmitter, receiver, motor driver and motors. Programming is done using AVR studio to flash the microcontroller. Advantages include compact size and wireless control using natural hand gestures. Future enhancements could include onboard controls, image processing for improved sensitivity and gyro sensors.
The document evaluates proposals from three companies for an RFID door lock system for a bank building. It analyzes the proposals based on cost, maintenance, security, and efficiency. The evaluation finds that the active RFID system best meets the criteria, being more secure and efficient while still affordable. It is recommended to purchase the active RFID locks to ensure safety of employees and property within the budget.
The group formed to develop a smart helmet for cyclists. They evaluated ideas like a microwave communication system and security alarm but chose the smart helmet as it addressed safety. The helmet uses ultrasonic sensors and circuitry to alert cyclists and drivers of nearby vehicles via lights and sounds. It was designed to fit well and be affordable. Through testing different prototypes, the group completed the project within 7 weeks and presented their double diamond design process and smart helmet.
The document describes the design of an intelligent shopping trolley system that uses RFID and other technologies to automatically calculate bills, provide offer information to customers, and streamline the checkout process. The system is intended to make shopping faster, easier and cheaper by avoiding long payment lines, informing customers of deals, and allowing them to see billing details in advance. Key components of the system include an RFID reader, ZigBee module, display, and Arduino board to control operations and interface with a PC for processing payments.
The document discusses embedded systems and their applications. It notes that embedded systems are controlled by microprocessors and use firmware. They are found in vehicles, medical devices, industrial systems, communications, and more. Adaptive cruise control is discussed as an example, using Doppler radar to maintain safe distances from other cars.
This document summarizes a major project report submitted by Abhilash Dandotiya and Sarthak Agrawal for their Bachelor's degree in Electronics and Communication Engineering. The project is titled "SMART HELMET" and aims to design a helmet that can autonomously detect accidents using a transmitter and receiver circuit along with a microcontroller. The microcontroller used is an ATMEGA 8 chip. The project involves designing printed circuit boards for the transmitter and receiver, interfacing a GSM module, and programming the microcontroller with C language to send SMS messages in the event of an accident detection.
This document discusses vehicle-to-vehicle communication (V2V) through wireless technologies. V2V allows vehicles within a quarter kilometer of each other to automatically detect their position and movements in order to anticipate hazards and avoid accidents. It works through short-range wireless protocols like IEEE 802.11 to quickly establish ad-hoc networks between nearby vehicles and share real-time location data. Potential applications include navigation assistance, traffic information, remote diagnostics, collision avoidance systems, and stolen vehicle tracking. The document also reviews technologies involved like GPS, Bluetooth, ZigBee, and Ultra Wideband.
This document discusses self-driving cars and machine learning algorithms. It describes how self-driving cars can navigate without human input using sensors to perceive the environment. The document outlines that machine learning algorithms like regression, pattern recognition, clustering, and decision matrices are used to classify objects, predict events, and determine navigation. Both advantages like safety and disadvantages like limitations and hacking risks of autonomous vehicles are presented.
Vechicle accident prevention using eye bilnk sensor pptsatish 486
This document describes a vehicle accident prevention system using an eye blink sensor. The system uses an IR sensor to detect a driver's eye blinks and a microcontroller to process the sensor data. If no eye blinks are detected for a period of time, indicating potential drowsiness, the system will stop the vehicle and trigger an alarm to prevent accidents. The system could also be expanded in the future to detect alcohol and stop the vehicle if the driver is intoxicated.
Presentation on To study the concept of comparison between Activa, Dio, Unic...VisualBee.com
The document provides information on Honda Motorcycle brands including Activa, Dio, Unicorn, and Shine. It discusses the key features and specifications of each model. The study aims to understand customer satisfaction regarding these Honda motorcycle brands and the factors influencing customers' choices. It will use a survey questionnaire to collect primary data from 100 customers aged above 18 years across India. Both primary and secondary research methods are adopted to collect and analyze data.
Okinawa Praise Electric Scooter Launch - Press ReleaseRushLane
Okinawa unveiled its latest electric scooter called 'Praise', which is the fastest in India with a maximum speed of 75 km/hr and the longest range of 170-200 km on a single charge. Praise can be easily financed through HDFC Bank and pre-booked at dealerships across India for INR 2000. It has features like LED lights, digital speedometer, economy/sport/turbo modes, anti-theft alarm, USB charging, and a vehicle tracker. Praise is available in purple, blue and golden colors and aims to further drive electric vehicle adoption in India.
The document provides information about the Hyundai Sonata sedan, highlighting its refined design, strong engineering, and technologically advanced features. It emphasizes how the Sonata's elegant exterior and balanced proportions reflect its inner strength. The interior is described as both reassuring and intimate, with an emphasis on ergonomics, comfort, and convenience. Advanced safety technologies such as electronic stability control and blind spot detection are also summarized.
Check out the 2014 Hyundai Full Line brochure. This includes every vehicle including Equus, Genesis, Genesis Coupe, Azera, Sonata, Sonata Hybrid, Elantra, Elantra GT, Elantra Coupe, Veloster, Veloster Turbo, Accent, Santa Fe, Santa Fe Sport, and Tucson. Along with having a very versatile line-up, Hyundai has some of the most fuel efficient cars with the best warranty. You can see them all at Glenbrook Hyundai, your Happy Car Store, in Fort Wayne, Indiana or online anytime at HappyCarStore.com. We are located on Coldwater Road next to Red Lobster in Ft. Wayne, IN. If great gas mileage and our exclusive 20 Year / 200,000 Mile Warranty is what you seek, come check out our phenomenal fuel economy today!
An innovative bicycle kit can transform any normal bicycle into an e-bike within seconds. The kit, called the E-KIT, aims to make bicycles more accessible and useful for everyday transportation by adding an electric motor that provides extra power and assistance. It seeks to address issues like making long trips easier and reducing the physical effort required for cycling.
IRJET- Experiment on Working Model of Self Balancing VehicleIRJET Journal
This document describes an experiment conducted on a self-balancing vehicle. The vehicle, called Segwalk-11, has been modified to include a sitting arrangement to make it more suitable for senior citizens and all generations. It uses a hoverboard, battery, roller bearings and an aluminum frame. When weight is applied forward or backward, it moves in that direction. The sitting arrangement allows for comfortable operation. The vehicle is portable, easy to use, and can carry up to 120kg. It has a 3300mAh battery that allows it to run for up to 7 hours and travel 17km. Future work may include adding hydraulics and a joystick for improved control and comfort.
DD Motors is launching a new 248cc motorcycle called the Sindhu. It will target young, adventurous upper-class consumers in major Pakistani cities with its sporty design, strong performance, and competitive price. To promote the Sindhu, DD Motors will use billboards, videos, and offer promotional deals like free tickets and accessories. The Sindhu will be distributed selectively through DD Motor's dealers across Pakistan. Localization efforts could help reduce costs and make the Sindhu more affordable.
The document provides details about a business plan for a customized chopper bike company called Thunder-Hoc. It includes an analysis of the sector and target market as well as information about competitors, suppliers, and the company's logo, tagline, and customization offerings. The business aims to provide personalized chopper bikes to younger and middle-aged individuals with high incomes by allowing customers to design bikes themselves.
This document describes the design of a smart wheelchair that can be controlled via smartphone. It contains sections on the components needed including an Arduino microcontroller, Bluetooth module, ultrasonic sensor, and DC motors. The wheelchair is designed to be comfortable, safe, and enable users to participate in daily activities. It has advantages like low cost, advanced technology, and stability. Future improvements could include control via head motion, gestures, eye tracking, or voice commands.
This document summarizes the history of Honda motorcycles in Thailand and their technology. It discusses how Honda was established in Thailand in 1946 and became the number one motorcycle distributor through A.P. Honda Company Limited, which was founded in 1986. The technology section focuses on idling stop systems that save fuel, dual clutch transmission for smooth shifting, and electronically controlled ABS. It also categorizes Honda motorcycles into families, A.T., sports, and big bike classes to suit different lifestyles.
The Mahindra Scorpio is a SUV manufactured by Mahindra & Mahindra Limited since 2002. It was the first SUV from the company built for the global market. The Scorpio comes in several models with different features and price ranges from 7-13 lakhs. It has found success in both domestic and international markets like India, Europe, USA, Brazil, and others. The Scorpio's power and performance, along with Mahindra's marketing strategies, have made it popular and a sales leader in the SUV segment.
This document provides details about a project to create a smart wheelchair that can be controlled through hand gestures. A robotic arm is attached to the wheelchair to allow objects to be manipulated. The wheelchair and arm will be controlled by an Arduino using image processing of hand gestures from a camera. Inverse kinematics algorithms will be used to position the robotic arm. The project aims to help people with disabilities move freely and interact with objects.
For more information please go to
www.JerrysMitsubishi.com
www.Facebook.com/jerrysmitsubishi
www.Twitter.com/jerrysmitsubish
www.MitsubishiBaltimore.net
The document provides a test ride report of the Mahindra Gusto scooter by Amit Dwivedi. It summarizes the key features and specifications of the Gusto, including its height adjustable seat, front flip-open seat, easy front kick, remote flip key, find me lamps, guide lamps, telescopic shock absorbers, 12-inch tubeless tires, pricing between Rs. 48,822 and Rs. 44,822, and compares it to competitors like the Activa and Maestro. The report also notes some features missing from the Gusto like effective brakes, a boot lamp, and mobile phone charger.
The document outlines plans to design and build a concept amphibious vehicle that can carry two passengers on land and water. A team of four students will lead the project, with responsibilities including design, manufacturing, marketing, and operations. The vehicle will use a Honda engine and automatic transmission. Disc brakes and a steel chassis were selected. CAD modeling and financial analysis were conducted. The team created online presences to promote the project and seeks technical and financial support to commercialize the design.
This document provides a summary of a minor project presentation on the fabrication of an all-terrain vehicle. It includes sections on the project objective, introduction, components like the roll cage, steering, suspension, engine, braking, and transmission. The roll cage section describes the materials used and welding samples. The presentation was given by three 7th semester students and guided by an assistant professor. It aims to fabricate a single-seater ATV based on SAE BAJA 2021 rules for competitions. Various analyses were conducted to test impacts and loads on the vehicle. The objective is to fabricate a high-performance and safe off-road vehicle.
The document describes a proposed 90 degree steering mechanism for vehicles. It aims to improve accessibility for disabled people by allowing vehicles to turn within very tight spaces. The mechanism uses electric motors on diagonal wheels to enable 90 degree rotations. It is intended to reduce turning radii, driver effort, and make transportation more independent for wheelchair users. Key components of the system include batteries, DC motors, toggle switches and sprockets/chains to enable the diagonal wheel rotation. The system is analyzed and advantages are noted as easier maneuverability, parking and reduced risk of accidents. It aims to improve on conventional steering mechanisms.
Are you thinking about buying a Hyundai Genesis?
The Genesis is one of the most popular Hyundai models out there. It features superior designed to help keep you safe from multiple angles.
It extracts traditional concepts of a luxury car and evolves them as only Hyundai could dare. What you get is a driving experience unlike anything Hyundai have ever delivered before.
Download this document for the Hyundai Genesis information and specs.
Test drive one Phil Gilbert Hyundai today.
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Use PyCharm for remote debugging of WSL on a Windo cf5c162d672e4e58b4dde5d797...shadow0702a
This document serves as a comprehensive step-by-step guide on how to effectively use PyCharm for remote debugging of the Windows Subsystem for Linux (WSL) on a local Windows machine. It meticulously outlines several critical steps in the process, starting with the crucial task of enabling permissions, followed by the installation and configuration of WSL.
The guide then proceeds to explain how to set up the SSH service within the WSL environment, an integral part of the process. Alongside this, it also provides detailed instructions on how to modify the inbound rules of the Windows firewall to facilitate the process, ensuring that there are no connectivity issues that could potentially hinder the debugging process.
The document further emphasizes on the importance of checking the connection between the Windows and WSL environments, providing instructions on how to ensure that the connection is optimal and ready for remote debugging.
It also offers an in-depth guide on how to configure the WSL interpreter and files within the PyCharm environment. This is essential for ensuring that the debugging process is set up correctly and that the program can be run effectively within the WSL terminal.
Additionally, the document provides guidance on how to set up breakpoints for debugging, a fundamental aspect of the debugging process which allows the developer to stop the execution of their code at certain points and inspect their program at those stages.
Finally, the document concludes by providing a link to a reference blog. This blog offers additional information and guidance on configuring the remote Python interpreter in PyCharm, providing the reader with a well-rounded understanding of the process.
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
artificial intelligence and data science contents.pptxGauravCar
What is artificial intelligence? Artificial intelligence is the ability of a computer or computer-controlled robot to perform tasks that are commonly associated with the intellectual processes characteristic of humans, such as the ability to reason.
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Artificial intelligence (AI) | Definitio
4. WHAT IS SELF-BALANCING?
Achieving steady state by internal forces.
Lead to the development of a self-balancing unicycle.
Assists the rider in staying upright.
Uses gyroscopes, other sensors and electric motor.
Consider a hover board.
5. BASIC SELF-BALANCING SCOOTER
•A steel frame with a central pivot
•A logic board
•Two gyroscopes
•Two infrared sensors
•Two electric motors
•Two tilt/speed sensors
•A battery pack
•Charging port
•LED lights
•Pressure pads
•A plastic shell
•Power switch
6. HISTORY OF SELF-BALANCING SCOOTER
Invented by Shane Chen, an American
business man.
This in turn lead to many innovations
based on this concept.
One among these is Honda's Self-
balancing vehicle.
Published at CES 2017.
8. SPECIALITIES
'Riding Assist' technology to control at slow speeds
Increases the fork angle , front wheel moves to greater distance
Follows the rider.
Runs with self-balance up to 3mph speed.
Finger print recognition.
Uses mobility to keep the vehicle intelligent.
Many eye-popping features have not been disclosed.
Honda has adopted many principles from Robotics technology
9. CONCEPT OF MOBILITY
Balance algorithms are to uni-cub mobility scooter.
This is non-gyroscope vehicle.
Has a good mobility control system.
12. GOAL
Reduce motor cycle accidents.
Increase availability of safety technology .
To pave the way for a new era for motorcycle buffs.
Provide the riders with the convenience of
never having to put down a kickstand.
With the Honda Riding Assist, riders will have the comfort and ease to master the
twist and turns of the road.
To keep motor cyle itself upright, even without a rider.
13. PRICE
The vehicle will launched in the middle of
2017.
The price will be around 13,00,000 INR.
14. CONCLUSION
“Through this open innovation, we believe we can
create products of substance that make people even
happier”