What are the positive and negative impacts of advanced technology on vehicles?
Research Question
Academic Insights
The impacts of advanced technology on vehicles are multifaceted, offering both significant benefits and notable challenges.
Key Insights
-
Positive Impacts:
- Enhanced Safety and Efficiency: Autonomous vehicles (AVs) and connected automated vehicles (CAVs) can improve road safety, fuel efficiency, and traffic flow while reducing greenhouse gas emissions .
- Green Technology: Hybrid and electric vehicles offer better fuel efficiency and lower carbon emissions compared to traditional vehicles, contributing to environmental sustainability .
- Improved Driving Experience: Technological advancements in vehicle design, such as vibration control and intelligent control systems, enhance driving comfort and performance .
-
Negative Impacts:
- Reduced Travel Efficiency for HDVs: The introduction of CAVs may lead to a reduction in travel efficiency for human-driven vehicles (HDVs) due to the CAVs' ability to occupy more road resources .
- Consumer Anxiety and Adoption Challenges: There is uncertainty about consumer acceptance of AVs, influenced by factors such as technology anxiety, driving enthusiasm, and the desire for control .
- High Costs: Green-tech vehicles, especially luxury models, often come with high costs, which may not always be justified by the improvements in fuel efficiency .
Conclusion
Advanced technology in vehicles brings substantial benefits such as improved safety, efficiency, and environmental sustainability. However, it also presents challenges including reduced travel efficiency for traditional vehicles, consumer adoption hurdles, and high costs. Addressing these challenges requires adaptable strategies and a balanced approach to technology integration.
Revolution on Wheels: A Survey on the Positive and Negative Impacts of Connected and Automated Vehicles in Era of Mixed Autonomy
Attitude and Behavioral Intentions Regarding Autonomous Automobiles: Effects of Emotional Response and Locus of Control
Green-Technology Automobiles: Can modern innovations save the environment and consumers' pockets
Study on the Vibrational Effects of Gear Transmission Error in Automotive Differential
Understand the impact of positive and negative information on public opinion about autonomous vehicles among young Ecuadorians
Naming is framing: The framing effect of technology name on public attitude toward automated vehicles
Experimental Analysis of Effect to Friction of Commercial Oil Additive Used in Automobiles
Dynamical systems approach in automobiles technological transition from environmental drivers
Sentiment Analysis of Electric Vehicles in Indonesia Using Support Vector Machine and Naïve Bayes
Modelling of Vehicle for Showing Various Effects of Wind and Terrain
Capacity Upgrade of China's National Automobiles Makers under Conditions of Technology Truncation Taking Chery,BYD and Geely Automobile as Examples
Research on Real-time Operational Status Evaluation Technology of Automobile Based on Information Data Fusion Algorithm
Green perceived value, green brand innovativeness and intention to use green technology vehicles
A Common Ground Bridgeless Buck Boost PFC Converter with positive DC output Voltage Based On board Bi directional charger for Electric Vehicles
Rediscovering the Traditional UNESCO World Heritage Hawamahal through 3D Animation and Immersive Technology
Underwater Explorers: Using Remotely Operated Vehicles (ROVs) to Engage Youth with Underwater Environments
Analysis of IPv6 Transition Technologies
Positive and Negative Obstacles Detection Based on Dual-LiDAR in Field Environments
Experimental Assessment of an Electrofilter and a Tandem Positive-Negative Corona Charger for the Measurement of Charged Nanoparticles formed in Selective Catalytic Reduction Systems
Torque Control of an In-Wheel Axial Flux Permanent Magnet Synchronous Motor using a Fuzzy Logic Controller for Electric Vehicles
High strength Steel tubes for automotive suspension parts: High strength Steel tubes with excellent formability and forming technology for light weight automobiles
SOURCES FORMATION TRANSPORT DEPOSITION HEALTH AND ENVIRONMENTAL EFFECTS AND CONTROL TECHNOLOGY OF RESPIRABLE PARTICLES (PM2.5)
Related Questions
- How has technology improved vehicle safety?
- What are the environmental effects of electric vehicles?
- In what ways has technology changed vehicle maintenance?
- What are the economic impacts of autonomous vehicles?
- How does technology influence driver behavior?
Upgrade your grade with Knowee
Get personalized homework help. Review tough concepts in more detail, or go deeper into your topic by exploring other relevant questions.