This document discusses in-wheel motor systems, which incorporate electric motors directly into each wheel hub. It describes the Chevrolet FNR concept car, which uses this technology. The key advantages of in-wheel motors are improved efficiency over internal combustion engines, simpler design without driveshafts, ability to control torque at each wheel for stability, and potential for wireless power transfer. Challenges include achieving high speeds, reducing unsprung weight vibrations, and developing battery-less electric cars that receive wireless power from road surfaces.
The document discusses automotive intrusion detection and cybersecurity. It provides an overview of automotive network architecture and the CAN bus protocol. It then discusses approaches to automotive intrusion detection, including building models of normal vehicle behavior to detect anomalies. The document outlines challenges in detecting threats on the CAN bus and proposes a distributed intrusion detection system architecture to enhance vehicle security.
I am Nawaz Ali from Pakistan Sindh currently, i am studying in Mehran university of engineering technology jamshoro. I am final year student of mechanical engineering
any question about my presentation so please asked me
contact +923052643823
Design and Analysis of Solar-Powered Smart Electric Car with Accidental safet...IRJET Journal
This document describes the design and analysis of a solar-powered smart electric car with an accidental safety system. The proposed electric car design aims to reduce pollution by running entirely on solar energy collected from onboard solar panels, eliminating the need for charging stations. The car is made with a 4WD design for stability on uneven terrain. It incorporates multiple sensors to continuously monitor the vehicle's condition and send data to the cloud to prevent breakdowns. Additionally, safety features like collision avoidance and GPS tracking are implemented. The document provides details on the various components used in the car's design like the motor, microcontroller, batteries, chassis materials and drive train. It also describes the working principle and methodology adopted for the project, including fabricating the chassis
2016 sking motors electrical vehicels and car without price(1)sking motors
S-King Motors is introducing several new electric vehicle models, including high-speed and low-speed versions of the Rugged A and B, a Weapon model with and without a roof, high-speed and low-speed versions of the LITE, the Warrior, and a Cargo van. The models range in size and weight and are equipped with different types of batteries that provide varying driving ranges. Key specifications like battery type and capacity, motor type, charging times, payload, and performance metrics are provided for each model.
The document provides information on compact SUV options in India, summarizing key details of the Ford Ecosport, Tata Nexon, Maruti Vitara Brezza, and Honda WR-V. It lists prices starting at Rs. 7.82 Lakhs for the Ecosport and highlights design, technology, safety and specification features for each vehicle such as sunroofs, infotainment systems, airbags, engine sizes and mileage ranges.
Advance Vehicle Advanced Driver Assistance Systems: Working & Features ADAS A...IRJET Journal
The document provides an overview of advanced driver assistance systems (ADAS) with three key points:
1. ADAS uses sensors like cameras and radar to help drivers and can detect things like lane departure, pedestrians, and oncoming collisions. This helps improve safety.
2. ADAS systems are classified as passive (warn drivers) or active (intervene in vehicle control). Examples of each are given.
3. The building blocks of ADAS including sensors, vehicle control, and processing are described. This technology is important for developing more autonomous vehicles.
The document discusses electric vehicle design using MATLAB. It outlines the key parts of an electric vehicle including the mechanical, electrical, and battery components. It also discusses benefits of electric vehicles like reduced emissions and operational costs. The document proposes using MATLAB modules to model the battery, motors, and mechanical parts for electric vehicle design. It provides examples of electric vehicles and their specifications.
This document discusses in-wheel motor systems, which incorporate electric motors directly into each wheel hub. It describes the Chevrolet FNR concept car, which uses this technology. The key advantages of in-wheel motors are improved efficiency over internal combustion engines, simpler design without driveshafts, ability to control torque at each wheel for stability, and potential for wireless power transfer. Challenges include achieving high speeds, reducing unsprung weight vibrations, and developing battery-less electric cars that receive wireless power from road surfaces.
The document discusses automotive intrusion detection and cybersecurity. It provides an overview of automotive network architecture and the CAN bus protocol. It then discusses approaches to automotive intrusion detection, including building models of normal vehicle behavior to detect anomalies. The document outlines challenges in detecting threats on the CAN bus and proposes a distributed intrusion detection system architecture to enhance vehicle security.
I am Nawaz Ali from Pakistan Sindh currently, i am studying in Mehran university of engineering technology jamshoro. I am final year student of mechanical engineering
any question about my presentation so please asked me
contact +923052643823
Design and Analysis of Solar-Powered Smart Electric Car with Accidental safet...IRJET Journal
This document describes the design and analysis of a solar-powered smart electric car with an accidental safety system. The proposed electric car design aims to reduce pollution by running entirely on solar energy collected from onboard solar panels, eliminating the need for charging stations. The car is made with a 4WD design for stability on uneven terrain. It incorporates multiple sensors to continuously monitor the vehicle's condition and send data to the cloud to prevent breakdowns. Additionally, safety features like collision avoidance and GPS tracking are implemented. The document provides details on the various components used in the car's design like the motor, microcontroller, batteries, chassis materials and drive train. It also describes the working principle and methodology adopted for the project, including fabricating the chassis
2016 sking motors electrical vehicels and car without price(1)sking motors
S-King Motors is introducing several new electric vehicle models, including high-speed and low-speed versions of the Rugged A and B, a Weapon model with and without a roof, high-speed and low-speed versions of the LITE, the Warrior, and a Cargo van. The models range in size and weight and are equipped with different types of batteries that provide varying driving ranges. Key specifications like battery type and capacity, motor type, charging times, payload, and performance metrics are provided for each model.
The document provides information on compact SUV options in India, summarizing key details of the Ford Ecosport, Tata Nexon, Maruti Vitara Brezza, and Honda WR-V. It lists prices starting at Rs. 7.82 Lakhs for the Ecosport and highlights design, technology, safety and specification features for each vehicle such as sunroofs, infotainment systems, airbags, engine sizes and mileage ranges.
Advance Vehicle Advanced Driver Assistance Systems: Working & Features ADAS A...IRJET Journal
The document provides an overview of advanced driver assistance systems (ADAS) with three key points:
1. ADAS uses sensors like cameras and radar to help drivers and can detect things like lane departure, pedestrians, and oncoming collisions. This helps improve safety.
2. ADAS systems are classified as passive (warn drivers) or active (intervene in vehicle control). Examples of each are given.
3. The building blocks of ADAS including sensors, vehicle control, and processing are described. This technology is important for developing more autonomous vehicles.
The document discusses electric vehicle design using MATLAB. It outlines the key parts of an electric vehicle including the mechanical, electrical, and battery components. It also discusses benefits of electric vehicles like reduced emissions and operational costs. The document proposes using MATLAB modules to model the battery, motors, and mechanical parts for electric vehicle design. It provides examples of electric vehicles and their specifications.
LabVIEW Based Automatic Speed Assistance System in Uncertain Road ConditionsP. RAMANI RANJAN SENAPATI
The document presents a LabVIEW-based automatic speed assistance system for vehicles in uncertain road conditions. It proposes developing models for slippery path braking, emergency braking, and curvature path braking. The system analyzes road specifications and applies forces to formulate a braking model. A controller is designed and validated to estimate slip and apply bang-bang control. Results show the system can avoid accidents from high speeds by providing necessary braking torque for different road specifications. Future work includes generating driving torque to actuate the braking system and performing more exact analysis using a vehicle bicycle model.
Design and Analysis of Braking and Steering of a Go-KartIRJET Journal
The document discusses the design and analysis of the braking and steering systems of a go-kart. It aims to reduce weight while maintaining strength. CAD software was used to model disc brakes, brake pedals, and steering hubs. Structural analysis evaluated mechanical strength and thermal analysis evaluated heat properties under different parameters. Prior research on go-kart braking and steering systems is reviewed, covering topics like material selection, stress analysis, and temperature analysis. Calculations related to braking power, torque, and inclination are presented. The document seeks to design braking and steering systems that are efficient, reliable, and withstand higher temperatures than commercial alternatives.
The document summarizes an electric vehicle called the Next Amazing Tool of Mobility (NAT) developed by FAW Group for use as taxis and ride-hailing. It has a novel exterior styling, comprehensive safety features including dual front airbags and ESP, and is designed to be comfortable for both drivers and passengers. The NAT is also intended to be profitable for owners due to its low operating costs of 0.25 RMB per kilometer from its 55 kWh battery and 100 kW motor.
Adaptive Cruise Control (ACC) allows a vehicle's cruise control to adjust speed based on surrounding traffic detected by radar. If a slower vehicle is detected, ACC will slow the vehicle down to maintain a safe following distance without driver input. ACC works by controlling engine throttle and brakes. It includes components like radar, braking and engine control modules. ACC relieves drivers in traffic but risks accidents if malfunctioning and does not yet enable vehicle cooperation. Further development may lead to vehicles that avoid accidents through comprehensive sensor systems.
Development of Russian Driverless Electric VehicleIJAAS Team
This article overviews the history of development of driverless vehicles both in Russia and the World. Foreign experience of development of driverless vehicles, including electric traction, is analyzed. Main stages of creation of experimental NAMI driverless electric vehicle are revised. Main engineering solutions are described concerning development of advanced NAMI driverless electric vehicle, its major components and control systems. Projects aimed at environmental safety of passengers in NAMI driverless electric vehicle are exemplified. Results of bench scale and running tests of NAMI driverless electric vehicle are summarized. Major advantages of driverless energy efficient and environmentally clean transport are demonstrated.
Park assist systems and telematics brief introductionRajni Ranjan
The report briefly describes the presently available Drive Assist System (DAS) and what we can have in near future. It also briefly introduces Telematics in Automotive - Rajni Ranjan
Intel provides an end-to-end platform for autonomous driving through investments and experience in vehicles, communications, and data centers. The platform utilizes deep learning, big data analytics, and sensor processing to enable autonomous driving functions. It also allows for over-the-air updates, anomaly detection, and security across the vehicle, network cloud, and data center. Through collaborations, Intel provides a complete portfolio of technologies to help achieve autonomous driving.
AUTO SPEED CONTROL OF SOLAR CAR AT SPECIFIED LOCATIONS LIKE SCHOOL ZONES / HO...Vinod Mali
This document proposes designing a solar-powered car that can automatically control its speed in specific locations like school zones, hospitals, and residential areas. The car would use sensors and an RF transmitter/receiver to detect its location and adjust its speed accordingly. It would have components like a controller, LCD display, LEDs, tachometer/speedometer, and mobile phone jammer. The speed control system would increase safety by reducing the car's speed in sensitive areas. Overall, the document outlines a project to create a solar-powered model car with automatic speed control near locations that require lower speeds.
The International Journal of Engineering and Science (IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
IRJET - Design and Fabrication of Smart Braking SystemIRJET Journal
1. The document describes the design and fabrication of a smart braking system to reduce accidents on the road.
2. The system uses a high torque motor controlled by a microcontroller to automatically engage and disengage the parking brake based on ignition status to prevent manual operation errors.
3. It also includes ultrasonic sensors to detect vehicle proximity and will activate braking or provide audible warnings if vehicles become too close to prevent collisions.
This document provides information about the course "AUTOTRONICS & VEHICLE INTELLIGENCE" taught at Bule Hora University. The course aims to provide students with knowledge of electronics systems used in vehicles like sensors, fuel injection, ignition and safety systems. It covers topics such as engine and vehicle sensors, electronic fuel injection, electronic ignition, microprocessor control systems, and intelligent transport systems. The course involves lectures, assignments, tutorials and labs. Students will be evaluated through presentations, tests, final exam, oral questions and practicals.
IRJET- Automatic Reverse Breaking System for TrolleyIRJET Journal
This document describes a proposed automatic reverse braking system for vehicles. The system uses sensors to detect obstacles behind a vehicle in reverse and automatically applies the brakes to prevent collisions. It is meant to address the problem of accidents that occur during reversing due to difficulties detecting objects or careless driving. The system would process sensor data and control the vehicle brakes to maintain a safe distance from any detected objects. It proposes implementing the control logic on an FPGA (field programmable gate array) microcontroller. The goal is to design a reliable automatic braking system that prevents injuries from reversing collisions by quickly detecting obstacles and braking the vehicle.
This document discusses autonomous vehicle technology, specifically focusing on Tesla's autopilot feature. It provides an overview of autopilot's components like cameras, sensors and computer chips. It explains how autopilot works and its applications such as adaptive cruise control, auto steering, auto parking and summoning. Advantages include reduced accidents and increased mobility. Disadvantages include potential job losses and hacking risks. In conclusion, autopilot technology has the potential to improve transportation if upgraded appropriately.
EFFI-CYCLE is a national level intercollegiate design competition held annually by Society of Automotive Engineers (SAE) for undergraduate students for simulating real world engineering design projects and their related challenges. It gives a wide platform for the students to work in teams and to come up with innovative design in addition to designing and fabrication of an energy efficient hybrid human powered three wheeled electric vehicle. This year’s theme of the competition is ‘Light Weight Season’, in which teams are required to keep the weight of the vehicle below 160 kgs. Team GARUD is one such group of highly motivated individuals who are recklessly working towards the realization of this goal since its very inception. To achieve this, Team GARUD has adopted various Light Weight approaches.
The designing of the vehicle have been done on SOLIDWORKS 2014 while the design analysis has been done on ANSYS 2014. Various light weight approaches like Light weight wheels, seats and steering have also been adopted. The innovations include use of rear wheel steering instead of conventional front wheel steering and use of universal joints in front axle. This way along with lot other ways, we have succeeded to bring our vehicle weight up to 140 kgs. Team GARUD aims to design a cost effective, aerodynamically stable, comfortable and ergonomically suitable tricycle that meets the need of the market and can be produced by a fictitious firm effectively.
Tata Nano was developed as an affordable car for the Indian market. The development process involved generating ideas, concept testing, business analysis, and addressing challenges. Some key points include:
1) The initial concept was a 3-wheeled vehicle but it evolved into a 4-wheeled car that could carry 1 ton for under $2,000.
2) Extensive cost-cutting measures were employed like removing non-essential features to get the price down.
3) The Nano faced questions around safety and competition from used cars but structural tests showed basic modifications could improve safety.
The document summarizes the key components and operating principles of an automatic transmission system. It describes how the mechanical, hydraulic, electric, and computer control systems work together harmoniously. The main components discussed include planetary gear sets, clutches, bands, torque converters, hydraulic systems, oil pumps, valve bodies, computer controls and more. It also briefly explains the differences between rear-wheel drive and front-wheel drive configurations.
This document provides details about a project to design an automatic side stand retrieval system for motorcycles using a sprocket. It consists of four main components: an axle, sprocket pinion, lifting lever, and pushing lever. These components are assembled into an inciter assembly and retriever assembly. The inciter assembly, consisting of the axle, sprocket, and lifting lever, receives power from the chain drive when the sprocket engages with the chain. This causes the lifting lever to rotate and engage with the pushing lever in the retriever assembly. The pushing lever is connected to the side stand and will automatically lift the side stand when the vehicle begins moving. The document describes the construction, arrangement, and
The document presents a new narrow tilting trike vehicle called the X4 that provides SUV comfort in a compact footprint for urban mobility, with patented self-balancing technology allowing stable riding with feet always on board, targeting underserved markets through affordable pricing and financing options. The startup is seeking funding to deliver pre-orders and automate production to scale up and enter new markets with their sustainable mobility solution.
LabVIEW Based Automatic Speed Assistance System in Uncertain Road ConditionsP. RAMANI RANJAN SENAPATI
The document presents a LabVIEW-based automatic speed assistance system for vehicles in uncertain road conditions. It proposes developing models for slippery path braking, emergency braking, and curvature path braking. The system analyzes road specifications and applies forces to formulate a braking model. A controller is designed and validated to estimate slip and apply bang-bang control. Results show the system can avoid accidents from high speeds by providing necessary braking torque for different road specifications. Future work includes generating driving torque to actuate the braking system and performing more exact analysis using a vehicle bicycle model.
Design and Analysis of Braking and Steering of a Go-KartIRJET Journal
The document discusses the design and analysis of the braking and steering systems of a go-kart. It aims to reduce weight while maintaining strength. CAD software was used to model disc brakes, brake pedals, and steering hubs. Structural analysis evaluated mechanical strength and thermal analysis evaluated heat properties under different parameters. Prior research on go-kart braking and steering systems is reviewed, covering topics like material selection, stress analysis, and temperature analysis. Calculations related to braking power, torque, and inclination are presented. The document seeks to design braking and steering systems that are efficient, reliable, and withstand higher temperatures than commercial alternatives.
The document summarizes an electric vehicle called the Next Amazing Tool of Mobility (NAT) developed by FAW Group for use as taxis and ride-hailing. It has a novel exterior styling, comprehensive safety features including dual front airbags and ESP, and is designed to be comfortable for both drivers and passengers. The NAT is also intended to be profitable for owners due to its low operating costs of 0.25 RMB per kilometer from its 55 kWh battery and 100 kW motor.
Adaptive Cruise Control (ACC) allows a vehicle's cruise control to adjust speed based on surrounding traffic detected by radar. If a slower vehicle is detected, ACC will slow the vehicle down to maintain a safe following distance without driver input. ACC works by controlling engine throttle and brakes. It includes components like radar, braking and engine control modules. ACC relieves drivers in traffic but risks accidents if malfunctioning and does not yet enable vehicle cooperation. Further development may lead to vehicles that avoid accidents through comprehensive sensor systems.
Development of Russian Driverless Electric VehicleIJAAS Team
This article overviews the history of development of driverless vehicles both in Russia and the World. Foreign experience of development of driverless vehicles, including electric traction, is analyzed. Main stages of creation of experimental NAMI driverless electric vehicle are revised. Main engineering solutions are described concerning development of advanced NAMI driverless electric vehicle, its major components and control systems. Projects aimed at environmental safety of passengers in NAMI driverless electric vehicle are exemplified. Results of bench scale and running tests of NAMI driverless electric vehicle are summarized. Major advantages of driverless energy efficient and environmentally clean transport are demonstrated.
Park assist systems and telematics brief introductionRajni Ranjan
The report briefly describes the presently available Drive Assist System (DAS) and what we can have in near future. It also briefly introduces Telematics in Automotive - Rajni Ranjan
Intel provides an end-to-end platform for autonomous driving through investments and experience in vehicles, communications, and data centers. The platform utilizes deep learning, big data analytics, and sensor processing to enable autonomous driving functions. It also allows for over-the-air updates, anomaly detection, and security across the vehicle, network cloud, and data center. Through collaborations, Intel provides a complete portfolio of technologies to help achieve autonomous driving.
AUTO SPEED CONTROL OF SOLAR CAR AT SPECIFIED LOCATIONS LIKE SCHOOL ZONES / HO...Vinod Mali
This document proposes designing a solar-powered car that can automatically control its speed in specific locations like school zones, hospitals, and residential areas. The car would use sensors and an RF transmitter/receiver to detect its location and adjust its speed accordingly. It would have components like a controller, LCD display, LEDs, tachometer/speedometer, and mobile phone jammer. The speed control system would increase safety by reducing the car's speed in sensitive areas. Overall, the document outlines a project to create a solar-powered model car with automatic speed control near locations that require lower speeds.
The International Journal of Engineering and Science (IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
IRJET - Design and Fabrication of Smart Braking SystemIRJET Journal
1. The document describes the design and fabrication of a smart braking system to reduce accidents on the road.
2. The system uses a high torque motor controlled by a microcontroller to automatically engage and disengage the parking brake based on ignition status to prevent manual operation errors.
3. It also includes ultrasonic sensors to detect vehicle proximity and will activate braking or provide audible warnings if vehicles become too close to prevent collisions.
This document provides information about the course "AUTOTRONICS & VEHICLE INTELLIGENCE" taught at Bule Hora University. The course aims to provide students with knowledge of electronics systems used in vehicles like sensors, fuel injection, ignition and safety systems. It covers topics such as engine and vehicle sensors, electronic fuel injection, electronic ignition, microprocessor control systems, and intelligent transport systems. The course involves lectures, assignments, tutorials and labs. Students will be evaluated through presentations, tests, final exam, oral questions and practicals.
IRJET- Automatic Reverse Breaking System for TrolleyIRJET Journal
This document describes a proposed automatic reverse braking system for vehicles. The system uses sensors to detect obstacles behind a vehicle in reverse and automatically applies the brakes to prevent collisions. It is meant to address the problem of accidents that occur during reversing due to difficulties detecting objects or careless driving. The system would process sensor data and control the vehicle brakes to maintain a safe distance from any detected objects. It proposes implementing the control logic on an FPGA (field programmable gate array) microcontroller. The goal is to design a reliable automatic braking system that prevents injuries from reversing collisions by quickly detecting obstacles and braking the vehicle.
This document discusses autonomous vehicle technology, specifically focusing on Tesla's autopilot feature. It provides an overview of autopilot's components like cameras, sensors and computer chips. It explains how autopilot works and its applications such as adaptive cruise control, auto steering, auto parking and summoning. Advantages include reduced accidents and increased mobility. Disadvantages include potential job losses and hacking risks. In conclusion, autopilot technology has the potential to improve transportation if upgraded appropriately.
EFFI-CYCLE is a national level intercollegiate design competition held annually by Society of Automotive Engineers (SAE) for undergraduate students for simulating real world engineering design projects and their related challenges. It gives a wide platform for the students to work in teams and to come up with innovative design in addition to designing and fabrication of an energy efficient hybrid human powered three wheeled electric vehicle. This year’s theme of the competition is ‘Light Weight Season’, in which teams are required to keep the weight of the vehicle below 160 kgs. Team GARUD is one such group of highly motivated individuals who are recklessly working towards the realization of this goal since its very inception. To achieve this, Team GARUD has adopted various Light Weight approaches.
The designing of the vehicle have been done on SOLIDWORKS 2014 while the design analysis has been done on ANSYS 2014. Various light weight approaches like Light weight wheels, seats and steering have also been adopted. The innovations include use of rear wheel steering instead of conventional front wheel steering and use of universal joints in front axle. This way along with lot other ways, we have succeeded to bring our vehicle weight up to 140 kgs. Team GARUD aims to design a cost effective, aerodynamically stable, comfortable and ergonomically suitable tricycle that meets the need of the market and can be produced by a fictitious firm effectively.
Tata Nano was developed as an affordable car for the Indian market. The development process involved generating ideas, concept testing, business analysis, and addressing challenges. Some key points include:
1) The initial concept was a 3-wheeled vehicle but it evolved into a 4-wheeled car that could carry 1 ton for under $2,000.
2) Extensive cost-cutting measures were employed like removing non-essential features to get the price down.
3) The Nano faced questions around safety and competition from used cars but structural tests showed basic modifications could improve safety.
The document summarizes the key components and operating principles of an automatic transmission system. It describes how the mechanical, hydraulic, electric, and computer control systems work together harmoniously. The main components discussed include planetary gear sets, clutches, bands, torque converters, hydraulic systems, oil pumps, valve bodies, computer controls and more. It also briefly explains the differences between rear-wheel drive and front-wheel drive configurations.
This document provides details about a project to design an automatic side stand retrieval system for motorcycles using a sprocket. It consists of four main components: an axle, sprocket pinion, lifting lever, and pushing lever. These components are assembled into an inciter assembly and retriever assembly. The inciter assembly, consisting of the axle, sprocket, and lifting lever, receives power from the chain drive when the sprocket engages with the chain. This causes the lifting lever to rotate and engage with the pushing lever in the retriever assembly. The pushing lever is connected to the side stand and will automatically lift the side stand when the vehicle begins moving. The document describes the construction, arrangement, and
The document presents a new narrow tilting trike vehicle called the X4 that provides SUV comfort in a compact footprint for urban mobility, with patented self-balancing technology allowing stable riding with feet always on board, targeting underserved markets through affordable pricing and financing options. The startup is seeking funding to deliver pre-orders and automate production to scale up and enter new markets with their sustainable mobility solution.
Similar to AI for Smart Vehicles - A quick overview (20)
Fleet management these days is next to impossible without connected vehicle solutions. Why? Well, fleet trackers and accompanying connected vehicle management solutions tend to offer quite a few hard-to-ignore benefits to fleet managers and businesses alike. Let’s check them out!
What Could Cause The Headlights On Your Porsche 911 To Stop WorkingLancer Service
Discover why your Porsche 911 headlights might flicker out unexpectedly. From aging bulbs to electrical gremlins and moisture mishaps, we're delving into the reasons behind the blackout. Stay tuned to illuminate the road ahead and ensure your lights shine bright for safer journeys.
Welcome to ASP Cranes, your trusted partner for crane solutions in Raipur, Chhattisgarh! With years of experience and a commitment to excellence, we offer a comprehensive range of crane services tailored to meet your lifting and material handling needs.
At ASP Cranes, we understand the importance of reliable and efficient crane operations in various industries, from construction and manufacturing to logistics and infrastructure development. That's why we strive to deliver top-notch solutions that enhance productivity, safety, and cost-effectiveness for our clients.
Our services include:
Crane Rental: Whether you need a crawler crane for heavy lifting or a hydraulic crane for versatile operations, we have a diverse fleet of well-maintained cranes available for rent. Our rental options are flexible and can be customized to suit your project requirements.
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At ASP Cranes, customer satisfaction is our top priority. We are dedicated to delivering reliable, cost-effective, and innovative crane solutions that exceed expectations. Contact us today to learn more about our services and how we can support your project in Raipur, Chhattisgarh, and beyond. Let ASP Cranes be your trusted partner for all your crane needs!
The Octavia range embodies the design trend of the Škoda brand: a fusion of
aesthetics, safety and practicality. Whether you see the car as a whole or step
closer and explore its unique features, the Octavia range radiates with the
harmony of functionality and emotion
Things to remember while upgrading the brakes of your carjennifermiller8137
Upgrading the brakes of your car? Keep these things in mind before doing so. Additionally, start using an OBD 2 GPS tracker so that you never miss a vehicle maintenance appointment. On top of this, a car GPS tracker will also let you master good driving habits that will let you increase the operational life of your car’s brakes.
What Are The Immediate Steps To Take When The VW Temperature Light Starts Fla...Import Motorworks
Learn how to respond when the red temperature light flashes in your VW with this presentation. From checking coolant levels to seeking professional help, follow these steps promptly to prevent engine damage and ensure safety on the road.
Comprehensive program for Agricultural Finance, the Automotive Sector, and Empowerment . We will define the full scope and provide a detailed two-week plan for identifying strategic partners in each area within Limpopo, including target areas.:
1. Agricultural : Supporting Primary and Secondary Agriculture
• Scope: Provide support solutions to enhance agricultural productivity and sustainability.
• Target Areas: Polokwane, Tzaneen, Thohoyandou, Makhado, and Giyani.
2. Automotive Sector: Partnerships with Mechanics and Panel Beater Shops
• Scope: Develop collaborations with automotive service providers to improve service quality and business operations.
• Target Areas: Polokwane, Lephalale, Mokopane, Phalaborwa, and Bela-Bela.
3. Empowerment : Focusing on Women Empowerment
• Scope: Provide business support support and training to women-owned businesses, promoting economic inclusion.
• Target Areas: Polokwane, Thohoyandou, Musina, Burgersfort, and Louis Trichardt.
We will also prioritize Industrial Economic Zone areas and their priorities.
Sign up on https://profilesmes.online/welcome/
To be eligible:
1. You must have a registered business and operate in Limpopo
2. Generate revenue
3. Sectors : Agriculture ( primary and secondary) and Automative
Women and Youth are encouraged to apply even if you don't fall in those sectors.
Ever been troubled by the blinking sign and didn’t know what to do?
Here’s a handy guide to dashboard symbols so that you’ll never be confused again!
Save them for later and save the trouble!
1. AI for Electric & Smart
Vehicles
Navaneethakrishnan Ramanathan,
Chairman – IEEE Education Society Madras Section
Director (GPGR), Metasage Alliance.
Regional Mentor – Atal Innovation Mission, Niti Aayog, Government of India.
5. Vintage car
Courtesy : https://www.carwale.com/news/vintage-and-classic-cars-permanently-exempted-from-
ngt-ban/
6. Parts of Automobile
Basic structure
Frame, suspension, Axle, Wheel
Power Unit
Engine (Fuel system, carburettor, ignition, exhaust, cooling)
Transmission system
Gearbox, clutch, Drive shaft
Controls
Brake, Steering
Auxiliaries
Head lamp, Indication lamps
Super structure
Body
Power train
10. Other important Electronic Control Units
Fuel system
Breaking
System (ABS,
EBD)
Steering
system
Safety system
(SRS airbag)
Navigation
and
infotainment
Battery
management
Park assist
24. Predictive maintenance
• Collect the sensor data (all
important parameters)
• Up the data onto cloud
• Predict the potential
maintenance issues
• Notifies the driver/owner via
connected device
27. Connected cars
• Fast transmission of data and increase drivers response time
through enhanced vehicle communication through CV2x
• Many ADAS requires V2x