Reader Response Draft 1

According to a blog post titled, “Smart Road Technology: Digital Highways of The Future” (2020), roads are usually neglected in discussions about the digital transformation of transportation. Safety, efficiency and sustainability can be improved by upgrading roads with Smart Road Technology (SRT). SRT enhances visibility, generates energy and allows communication between vehicles, improving driver’s experience on roads. The blog post also describes innovations such as Solar Powered Roadways, Weather and Traffic Detection help to boost safety and road efficiency. Glow in the Dark Roads and Interactive Lights will aid in visibility while supporting sustainability. Smart Roads and Electric Priority Lanes allow electric vehicle charging on the road and vehicle communication. The blog post includes that governments and transport authorities understand the importance of adopting SRT. While the development of these innovations at scale can be expensive, leaders can initiate smaller scale projects before spearheading large-scale efforts. Having SRT drives the future of transportation and provides governments with the power over road traffic.

In the article “Smart Road Technology: Digital Highways of The Future” (2020), it highlights the potential that digital revolution can have on roads and discusses the future development and digital transformation of the modern transport infrastructure. The article claims that by using SRT to upgrade and improve roads, it would greatly benefit and transform the driving experience for road users. In the context of living in this era, especially in Singapore, I believe that there would be a demand in the innovation on Electric Priority lanes for charging electric vehicles to benefit road users.

According to the LTA website on electric vehicles (2021), Singapore plans to adopt the use of electric vehicles and have all Internal Combustion Engine vehicles converted to electric vehicles by 2040, meaning that the use of electric vehicles would be inevitable.

Electric Priority lanes is a concept where cables and wires are embedded in the road which generates electromagnetic fields that transmits energy to a receiver that supplies the vehicle’s battery, charging the vehicle while in motion (The RAY, 2019). By adopting the Electric Priority lanes concept into Singapore, there will be numerous benefits that drivers can experience when society moves towards electric vehicles.

According to Research (2020), electric vehicles tend to have a short range as compared to gas-powered vehicles. The distance that an electric car can cover on a full charge is roughly around 60 to 100 miles, which is significantly lesser than a gas-powered car that can cover up to 400 miles on a full tank of gas. This would be a concern for drivers that travel long distances as there is a lack of charging stations for them to recharge their electric vehicles (Abudheen K, 2021). By adopting Electric Priority lanes, electric vehicles can charge their batteries while travelling on the roads.

Research (2020) also states that electric vehicles' battery recharging duration is rather lengthy compared to filling up a gas tank, which only takes up to 3 minutes. An electric car of an older model can sometimes take up to 20 hours for a full charge. These prolonged charging durations can be greatly reduced by having Electric Priority lanes. This allows electric vehicles to charge their batteries while driving on the road.

In conclusion, due to electric vehicles’ lack of ability to travel long distances and lengthy charging duration, adopting Electric Priority lanes in Singapore is crucial and beneficial. It enhances the driving experience for road users, as drivers can potentially save plenty of time and also provides great convenience to their daily lives.

 

References

Abudheen K, S. (2021, February 8). ‘Singapore isn’t ready for mass adoption of EVs yet; hybrid may be better for the present.’ E27. https://e27.co/singapore-isnt-ready-for-mass-adoption-of-evs-yet-hybrid-may-be-better-for-the-present-20210208/

 

LTA | Electric Vehicles. (2021). Land Transport Authority. https://www.lta.gov.sg/content/ltagov/en/industry_innovations/technologies/electric_vehicles.html#:%7E:text=Our%20EV%20Vision,to%20electric%20vehicles%20(EVs).

 

Research, H. A. (2020, June 12). Electric Cars: Pros and Cons. Car and Driver. https://www.caranddriver.com/research/a32758614/electric-cars-pros-and-cons/

 

Suomalainen, E. (2019, October 28). A Corridor-Based Approach to Estimating the Costs of Electric Vehicle Charging Infrastructure on Highways. https://www.researchgate.net/profile/Emilia-Suomalainen/publication/336852862_A_Corridor-Based_Approach_to_Estimating_the_Costs_of_Electric_Vehicle_Charging_Infrastructure_on_Highways/links/5db7057d4585155e270d3f57/A-Corridor-Based-Approach-to-Estimating-the-Costs-of-Electric-Vehicle-Charging-Infrastructure-on-Highways.pdf.

 

Statista. (2021, September 21). Length of expressways Singapore 2009–2020. https://www.statista.com/statistics/1003220/singapore-total-expressways/

 

The RAY. (2019, January 3). EV Charging Lanes - The Ray | Let's drive the future. The Ray | Let’s Drive the Future. https://theray.org/tech/ev-charging-lanes/

 

Vrioeurope. (2020). Smart Road Technology: Digital Highways Of the Future. https://vrioeurope.com/en/smart-road-technology-digital-highways-of-the-future/

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