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UK NUCLEAR ROBOTS
SOURCE: ASSOCIATED PRESS/NATIONAL CENTRE FOR NUCLEAR ROBOTICS/SKY ATLANTIC/NOW TV
RESTRICTIONS: AP Clients Only/Content has significant restrictions, see script for details
LENGTH: 6:35
SHOTLIST:
TV CLIPS ARE CLEARED FOR MEDIA BROADCAST AND/OR INTERNET USE IN CONJUNCTION WITH THIS STORY ONLY.  NO RE-SALE. NO ARCHIVE.
VNR - NATIONAL CENTRE FOR NUCLEAR ROBOTICS - MUST ONSCREEN CREDIT
Red Forest, Chernobyl Exclusion Zone, Ukraine - April 2019
++16:9++
1. Various aerial shots of radiation-monitoring multi-motored drone ++MUTE++
VNR - NATIONAL CENTRE FOR NUCLEAR ROBOTICS - MUST ONSCREEN CREDIT
2. STILL of Chernobyl Kopachi hotspot magnified area
3. STILL of Chernobyl Kopachi hotspot area
4. STILL of Chernobyl rotor vs winged area
ASSOCIATED PRESS
London, UK - 7 May 2019
++16:9++
5. SOUNDBITE (English) Professor Tom Scott, National Centre for Nuclear Robotics and University of Bristol:
"It's typically done either by people on the ground, very quickly, or in some cases you wouldn't do it at all on the ground. And in those cases, you would fly over in a helicopter or using an aeroplane, but, of course, you'd be limited in how low you could fly. Because in an aeroplane or a helicopter you don't want to hit into trees or buildings. And so typically you'd be flying at 100, 120 metres is your minimum altitude. And that would mean that actually most of the radiation coming off the ground would never reach the aircraft and the detector inside of it."
VNR - NATIONAL CENTRE FOR NUCLEAR ROBOTICS - MUST ONSCREEN CREDIT
Red Forest, Chernobyl Exclusion Zone, Ukraine - April 2019
++16:9++
6. Aerial shot of radiation-monitoring multi-motored drone ++MUTE++
ASSOCIATED PRESS
London, UK - 7 May 2019
++16:9++
7. SOUNDBITE (English) Professor Tom Scott, National Centre for Nuclear Robotics and University of Bristol:
"The important thing for what we've been doing over the Chernobyl Red Forest is that we've been sending them in and they're flying autonomously. So, they're clever enough to fly on their own and to collision avoid if necessary. And what we're using them for is for mapping the distribution of radioactivity and to form a 3D model of the terrain so that we can understand where the radioactivity is highest and also those areas which would be safe for people to visit as tourists or to be converted into solar farms."
VNR - NATIONAL CENTRE FOR NUCLEAR ROBOTICS - MUST ONSCREEN CREDIT
Red Forest, Chernobyl Exclusion Zone, Ukraine - April 2019
++16:9++
8. Aerial shot of Chernobyl's Red Forest ++MUTE++
VNR - NATIONAL CENTRE FOR NUCLEAR ROBOTICS - MUST ONSCREEN CREDIT
++16:9++
9. Animation, showing fixed-wing drone monitoring vegetation ++MUTE++
ASSOCIATED PRESS
London, UK - 7 May 2019
++16:9++
10. SOUNDBITE (English) Professor Tom Scott, National Centre for Nuclear Robotics and University of Bristol:
"We can scan very, very fast. So, if we had a nuclear incident today, somewhere in Europe, we'd be able to deploy this technology immediately and it would give us a really rapid situational awareness of how much danger there was and where it actually lay. And that would protect your first responders such that when you do send them in, they know the hazard they're going into, it's not unknown, and they know specifically which areas to avoid."
ASSOCIATED PRESS
File: Chernobyl, then USSR - 1986
++4:3++
11 . Various of Swedish scientist testing for radiation
12. Various aerial shots of Chernobyl after reactor explosion
13. Various of surgeons working on operating table
14. Various of doctor examining child
ASSOCIATED PRESS
Babchin, Chernobyl Exclusion Zone, Belarus - 17 April 2019
++16:9++
15. Mid of tourist on bus
16. Wide of bus driving through checkpoint
17. Mid of guard by gate
18. Various of tourists being tested for radiation
19. Close of device measuring radiation level
ASSOCIATED PRESS
Prypyat, Chernobyl Exclusion Zone, Ukraine - 21 March 2019
++16:9++
20. Close of rusted old fairground ride moving
21. Wide of fairground
22. Wide of Polissya Hotel exterior
23. Pan of damaged hotel interior
24. Wide of monument
25. Close of Chernobyl Nuclear Power Plant
ASSOCIATED PRESS
London, UK - 7 May 2019
++16:9++
26. Various of researcher demonstrating remotely-controlled robotic arm
27. SOUNDBITE (English) Professor Rustam Stolkin, Director of the National Centre for Nuclear Robotics:
"Partly we need robots to solve the high-level waste that's too radioactive for humans to ever deal with. But also, we would like to remove those human workers from those hostile environments."
28. Various of robotic arm
29. Various of researcher demonstrating remotely-controlled robotic arm
30. SOUNDBITE (English) Professor Rustam Stolkin, Director of the National Centre for Nuclear Robotics:
"Nowadays, with the technology coming out of our research labs, a human could supervise the robot at a higher level. So, for instance, mouse clicking on an object and saying; 'AI, please can pick that up for me?' And AI plans all of the motions, instead of the human having to directly control the robot's joints."
TV CLIPS ARE CLEARED FOR MEDIA BROADCAST AND/OR INTERNET USE IN CONJUNCTION WITH THIS STORY ONLY.  NO RE-SALE. NO ARCHIVE.
SKY ATLANTIC/NOW TV
++4:3++
31. Trailer clip - "Chernobyl"
LEADIN:
A UK-led research team has for the first time used automated drones to map radiation distribution in Chernobyl's Exclusion Zone.
It's a demonstration of the AI-powered technology being developed to tackle the world's mounting nuclear waste.
STORYLINE:
It's an accident so devastating it may seem like fiction, but despite HBO's forthcoming new drama series, the Chernobyl disaster was no fantasy.
On April 26, 1986, an explosion and fire at the Chernobyl nuclear power plant in Ukraine (then part of the Soviet Union) caused radioactive fallout to begin spewing into the atmosphere.
Dozens of people were killed in the immediate aftermath of the disaster while the long-term death toll from radiation poisoning is believed to number in the thousands.
The explosion forced the evacuation of about 115,000 people.
Now, over 30 years since the disaster, researchers from the UK's National Centre for Nuclear Robotics (NCNR) have used automated drones to identify new radiation hot spots at Chernobyl.
In what's claimed to be a world first, UK researchers mapped radiation distribution in 3D, using both fixed-wing and multi-rotored drones.
They flew them over Chernobyl's Red Forest - claimed to be one of the most radioactive sites one earth - conducting its most comprehensive survey yet.
A fixed-wing drone quickly mapped larger areas, flying at heights of 45 metres. While, a rotored-drone performed more detailed observations.
"It's typically done either by people on the ground, very quickly, or in some cases you wouldn't do it at all on the ground," explains Professor Tom Scott from the National Centre for Nuclear Robotics and University of Bristol.
"What we're using them for is for mapping the distribution of radioactivity and to form a 3D model of the terrain so that we can understand where the radioactivity is highest and also those areas which would be safe for people to visit as tourists or to be converted into solar farms.
"We can scan very, very fast. So, if we had a nuclear incident today, somewhere in Europe, we'd be able to deploy this technology immediately and it would give us a really rapid situational awareness of how much danger there was and where it actually lay."
The Chernobyl explosion released about 400 times more radiation than the U.S. atomic bomb dropped over Hiroshima.
The U.N. World Health Organization says among the 600,000 people most heavily exposed to radiation at Chernobyl, 4,000 more cancer deaths than average are expected.
The accident exposed millions in the region to dangerous levels of radiation and forced a wide-scale, permanent evacuation of hundreds of towns and villages in Ukraine and Belarus.
The final death toll from Chernobyl is subject to speculation, due to the long-term effects of radiation, but ranges from an estimate of 9,000 by the World Health Organization to one of a possible 90,000 by the environmental group Greenpeace.
Nowadays, tourists in both Ukraine and Belarus take day trips into the deserted exclusion zone, including visits to Chernobyl Nuclear Power Plant.
Researchers from the NCNR, which is led by the University of Birmingham, are looking beyond Chernobyl, including to the UK's own nuclear waste.
According to estimates by the Nuclear Decommissioning Authority, the UK could be in the possession of some 4.9 million tonnes of radioactive waste in around a century.
They're developing a range of robotic applications, designed to reduce human exposure to dangerous levels of radiation, including AI-powered robotic arms.
"Partly we need robots to solve the high-level waste that's too radioactive for humans to ever deal with," says Professor Rustam Stolkin, director of the National Centre for Nuclear Robotics.
"But also, we would like to remove those human workers from those hostile environments.
"Nowadays, with the technology coming out of our research labs, a human could supervise the robot at a higher level.
"So, for instance, mouse clicking on an object and saying; 'AI, please can pick that up for me?' And AI plans all of the motions, instead of the human having to directly control the robot's joints."
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