Government Announces V2V Communication Technology Rollout by End-2026 to Reduce Road Crashes
AQuick answer
V2V communication technology to be rolled out by end-2026; ₹5,000 crore project to reduce highway crashes.
Key facts
Government announced Vehicle-to-Vehicle (V2V) communication technology will be rolled out nationwide by end-2026
V2V enables vehicles to exchange data about speed, location, direction, and braking status using radio frequency band 5.875-5.905 GHz without mobile internet
Technology effective in preventing rear-end collisions, fog-related pileups, and crashes with stationary vehicles on highways
Project estimated to cost ₹5,000 crore
Especially relevant for Rajasthan and north India where dense winter fog frequently causes multi-vehicle highway pileups
The Government of India announced on January 10, 2026 that Vehicle-to-Vehicle (V2V) communication technology will be rolled out nationwide by end-2026. V2V enables vehicles to directly exchange data about speed, location, direction, and braking status with nearby vehicles using a special radio frequency band (5.875-5.905 GHz) approved by the Department of Telecommunications — without requiring mobile internet.
India has among the world's highest road accident fatalities. V2V technology is particularly effective in preventing rear-end collisions, fog-related pileups, and crashes with stationary vehicles on highways. The project is estimated to cost ₹5,000 crore. The technology is especially relevant for Rajasthan and north India where dense winter fog frequently causes multi-vehicle pileups on highways.
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Mains angle
Q: The Government announced nationwide rollout of Vehicle-to-Vehicle (V2V) communication technology by end-2026 to reduce road crashes. Discuss how V2V technology can enhance road safety on Indian highways.
Answer (50 words):
On January 10, 2026, the Government announced nationwide rollout of Vehicle-to-Vehicle communication technology by end-2026, costing ₹5,000 crore. V2V allows vehicles to exchange speed, location and braking data using the 5.875-5.905 GHz band approved by DoT, without mobile internet, preventing rear-end collisions and fog-related highway pileups common in north India.
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Linked questionHard
The V2V (Vehicle-to-Vehicle) communication technology announced for rollout by end-2026 uses which radio frequency band?
Explanation · Correct answer B
V2V communication uses a special radio frequency band of 5.875-5.925 GHz approved by the Department of Telecommunications, enabling vehicles to exchange data without requiring mobile internet.
What is Vehicle-to-Vehicle (V2V) communication technology announced for India and how does it work?
**Vehicle-to-Vehicle (V2V) communication technology** enables vehicles to directly exchange real-time data on **speed, location, direction, and braking status** with nearby vehicles using a **special radio frequency band (5.875–5.905 GHz)** approved by the **Department of Telecommunications** — without requiring mobile internet. The Government of India announced its **nationwide rollout by end-2026** on January 10, 2026 at an estimated cost of **₹5,000 crore**, targeting prevention of rear-end collisions and fog-related pileups.
What is the estimated cost and rollout timeline for India's V2V communication technology announced in January 2026?
India's **V2V (Vehicle-to-Vehicle) communication technology** was announced for **nationwide rollout by end-2026** on January 10, 2026. The project is estimated to cost **₹5,000 crore**. It uses a **radio frequency band (5.875–5.905 GHz)** approved by the **Department of Telecommunications** to exchange vehicle data without mobile internet. It aims to prevent **rear-end collisions, fog-related pileups**, and crashes with stationary vehicles — especially relevant for Rajasthan and north India.
Why is V2V technology particularly relevant for Rajasthan and north India's highway safety?
**V2V technology** is especially relevant for **Rajasthan and north India** where **dense winter fog** frequently causes **multi-vehicle pileups on highways**. V2V enables real-time exchange of **speed, location, and braking data** between vehicles using **5.875–5.905 GHz radio frequency** (no mobile internet needed), preventing rear-end collisions and fog-related crashes. India announced **nationwide V2V rollout by end-2026** on January 10, 2026, with a **₹5,000 crore** project cost.
What types of road accidents does V2V communication technology aim to prevent in India?
**V2V (Vehicle-to-Vehicle) communication technology** (announced for nationwide rollout by end-2026, January 10, 2026) is particularly effective at preventing: **rear-end collisions**, **fog-related highway pileups**, and **crashes with stationary vehicles**. It uses the **5.875–5.905 GHz** frequency band approved by **DoT** to exchange speed, location, direction, and braking data between vehicles — without mobile internet. The ₹5,000 crore project addresses India's high road accident fatality rate.
Which frequency band has been approved for V2V communication technology in India?
The **Department of Telecommunications (DoT)** approved the **5.875–5.905 GHz radio frequency band** specifically for **Vehicle-to-Vehicle (V2V) communication** in India. This band allows vehicles to directly exchange **speed, location, direction, and braking data** without mobile internet. The government announced **nationwide V2V rollout by end-2026** on January 10, 2026, at a cost of **₹5,000 crore**. The technology is particularly effective for preventing highway pileups in fog-prone states like **Rajasthan** and north India.
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