Home > WORLD NEWS > Fast, tiny, stealthy manned and unmanned tanks

Fast, tiny, stealthy manned and unmanned tanks

DARPA’s Ground X-Vehicle Technology program (GXV-T) initiative that could lead to an entirely new era of tanks and armored combat vehicles. GXV-T would offer tank-like protection on a vehicle that resembles a futuristic All-Terrain Vehicle (ATV) but is smaller than a traditional tank.

They are using augmented reality for windowless vehicles.

DARPA is not looking to replace any single vehicle or vehicle family through GXV-T, but to identify ways to break the “more armor” paradigm that has been the cornerstone of mechanized vehicle protection for the past century. Weapons’ ability to penetrate armor has advanced faster than armor’s ability to withstand penetration, so even incremental improvements in crew survivability require significant increases in vehicle mass and cost. The GXV-T program seeks to investigate revolutionary ground-vehicle technologies to simultaneously improve mobility and survivability through means other than adding more armor, including avoiding detection, engagement, and hits by autonomously avoiding inbound threats.

Four technical areas as examples where advanced technologies could be developed to meet program objectives are:
Radically Enhanced Mobility – Ability to traverse diverse off-road terrain, including slopes, various elevations, and a range of surfaces and gradients; advanced suspensions and redefined track or wheel configurations; extreme speed; rapid omnidirectional movement changes in three dimensions
Survivability through Agility – Autonomously avoid incoming threats without harming occupants through technologies such as agile motion (dodging) and active repositioning of armor
Crew Augmentation – Improved physical and electronically assisted situational awareness for crew and passengers; semi-autonomous driver assistance and automation of key crew functions
Signature Management – Reduction of detectable signatures, including visible, infrared (IR), acoustic, and electromagnetic (EM)

  1. No comments yet.
  1. No trackbacks yet.

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s

%d bloggers like this: