Emotion & Lie Detector, remotely, without using wires, by pulsing microwave RF, from a large stand-off.

The 2004 Russian technical paper mentions remote, wireless, contactless, through-wall "LIE-DETECTION" http://rslab.ru/downloads/piers2004_68_03.pdf but others have been working on this too.

Although the remotely pulsed microwave RF cannot “read” minds, it can “read” a lot of clues, through – walls to accurately make intelligent “guesses” about a person. But, when the microwave RF is pulsed directly at a person’s head or brain, it does cause confusion and foggy thinking and that is serious enough; but when the power density is increased, it creates “SHOCKWAVES” or “PRESSURE WAVES” (go to the cavitation UPDATE), causing Traumatic Brain Injury (TBI) or concussions, which effects are long lasting or even permanent or can even be deadly.

 

For most targets, these pulsed microwave RF directed energy (DEW) assaults started out as a “VIRTUAL REALITY BELLY LAUGH” game, because some think that pulsing this stuff from a remote location into the privacy of a human beings’ home, is funny. Apparently, it is fun to watch someone writhe in pain and agony while they try to hide under things to protect themselves and somehow try desperately to save their lives.

Increasing the power density of the pulsed MW/RF RADAR, is what hurts, burns and vibrates our bodies, with medical precision, because you are on a Graphic User Interface (GUI) – computer screen interaction – where the mouse can be placed on a particular body part and pulsed with directed energy (DEW). The precision of 'seeing' our body parts is a result of using dielectric constants or relative permittivity software, 'filtering' in or out the RF echo or back scatter of the materials that it bounces back from, to the RADAR gun’s computer screen. All material, whether gaseous, solid or liquid has a discrete dielectric constant or relative permittivity.

The human anatomy, body parts diagrams: https://anatomysystem.com/ (Pulsed microwave RF is also used in medicine to locate tumors, for ablation (destroying or killing tissue), etc.)

 

MIT has been presenting technical papers on this technology for a long time:
LIE DETECTOR: RADAR is a motion sensor. The definition of RADAR is RAdio Detection And Ranging + RAdio Direction And Ranging. Through-The-Wall-Surveillance (TTWS) RADAR gun computers detect "micro-motion", such as breath-rate, heart beat and speech and recognize gesture, gait, eye gaze movement and emotion. These are our individual and unique, human identifying bio-metric signatures. Pulsed RADAR radio waves, through-walls, can 'LOCATE' and then 'TRACK' a moving target and can also detect and watch the micro-motion of blood rush to your face while you are fibbing, behind closed doors, using a remotely pulsed, wireless, contactless, microwave RF computer gun – all done without your knowledge or permission.

 

MIT News – Researchers amplify variations in video, making the invisible visible.

New software amplifies changes in successive frames of video that are too subtle for the naked eye. June 22, 2012 https://news.mit.edu/2012/amplifying-invisible-video-0622 Caption: In these frames of video, a new algorithm amplifies the almost imperceptible change in skin color caused by the pumping of the blood.

At this summer's Siggraph — the premier computer-graphics conference — researchers from MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL) will present new software that amplifies variations in successive frames of video that are imperceptible to the naked eye. So, for instance, the software makes it possible to actually "see" someone's pulse, as the skin reddens and pales with the flow of blood, and it can exaggerate tiny motions, making visible the vibrations of individual guitar strings or the breathing of a swaddled infant in a neonatal intensive care unit. … etc … etc ……

 

Other MIT technical conference presentations:

1. MARKO – Wireless movement-tracking system collects health and behavioral data – In some cases, radio frequency signals may be more useful for caregivers than cameras or other data-collection methods. http://news.mit.edu/2019/movement-tracking-system-marko-behavioral-data-0508 – May 8, 2019

2. RF Pose – Through-Wall Human Pose Estimation Using Radio Signals – Computer Vision and Pattern Recognition (CVPR), 2018 The RF-Pose has through-wall gait, gaze and gesture recognition. The RF-Pose can read, through-walls, 'FUdge' that you just air-wrote with your middle finger. It can also tell, through-walls, if you have succumbed to Parkinson's or some other neurological disease – before you do. http://rfpose.csail.mit.edu/

3. Learning Sleep Stages from Radio Signals – International Conference on Machine Learning (ICML), 2017 – It is possible to 'know' or detect emotions, sleep patterns using through wall, low frequency, microwave radiofrequency (MW RF) surveillance. http://sleep.csail.mit.edu / and http://sleep.csail.mit.edu/files/rfsleep-paper.pdf MIT article will be presented at the 34th International Conference on Machine Learning, Sydney, Australia, in 2017. Researchers at MIT's Lincoln Lab have developed new RADAR technology that provides real-time video of what's going on behind solid walls by beaming you with radio waves.

 

4. Emotion Recognition using Wireless Signals – ACM International Conference on Mobile Computing and Networking (MobiCom), 2016 http://eqradio.csail.mit.edu/

 

5. Capturing the Human Figure Through a Wall – SIGGRAPH Asia'15, Kobe, Japan, November 2015 https://people.csail.mit.edu/hongzi/content/publications/RFcapture-TOG.pdf

 

6. TED Talk: From Wireless Tech to Superpowers Sep 1, 2015 – https://www.youtube.com/watch?v=qggW-15i-hg

 

7. Multi-Person Localization via RF Body Reflections, Usenix NSDI'15, Oakland, California, May 2015 http://witrack.csail.mit.edu/witrack2-paper.pdf

 

8. Vital-Radio: Smart Homes that Monitor Breathing and Heart Rate http://witrack.csail.mit.edu/vitalradio/ Seoul, South Korea, April 2015 – Could wireless replace wearables? – CSAIL June 12, 2014 – CSAIL wireless technology that measures heart rate and breathing through walls has applications for personal health, baby monitors and law enforcement. http://news.mit.edu/2014/could-wireless-replace-wearables

 

9. WiTrack: Through-Wall 3D Tracking Using Body Radio Reflection, Usenix NSDI'14, Seattle, Washington, April 2014 http://witrack.csail.mit.edu/

 

10. Wi-Vi: See Through Walls with Wi-Fi!, ACM SIGCOMM'13, Hong Kong, August 2013 http://people.csail.mit.edu/fadel/wivi/

 

11. RF-Capture: Capturing a Coarse Human Figure Through a Wall Conference: September 2013 http://rfcapture.csail.mit.edu/

 

12. EMERALD motion tracking demoed to President Obama at the White House. Emerald detects elderly falls and monitors fall precursors including gait and balance problems, without requiring any on-body sensor. https://news.mit.edu/2015/president-obama-meets-mit-entrepreneurs-white-house-demo-day-0806 and http://witrack.csail.mit.edu/ and https://people.csail.mit.edu/fadel/wivi (These links are dead, but I copied the story back in 2018 – look for the story in its entirety below.)
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MIT - RADIO WAVE Tracking - WiTRACK - RF Capture
https://news.mit.edu/2015/president-obama-meets-mit-entrepreneurs-white-house-demo-day-0806
President Obama invites MIT entrepreneurs to give demo at the White House – IMAGE: Fadel Adib, Dina Katabi, President Barack Obama and Zachary Kabelac at the White House Demo Day
Wireless motion-tracking device from CSAIL researchers is among highlighted innovations at “Demo Day”. Watch Video – August 6, 2015
Comment – Leave a comment

 

It’s rare that anyone, including even an MIT computer scientist, is extended an invitation to the Oval Office. Even rarer, still: the opportunity to fall on your face in front of the “Leader of the Free World”.
To be clear, this particular fall in question was intentional. On Tuesday, researchers from MIT’s Computer Science and Artificial Intelligence Lab (CSAIL) were part of a select group of entrepreneurs that gave President Obama an in-person demo about their innovation — a device that uses radio waves to detect, predict and prevent falls among the elderly.

 

The live-streamed visit was part of the White House’s first annual Demo Day, which is aimed at fostering greater diversity in technology entrepreneurship.

 

Professor Dina Katabi and CSAIL graduate students Fadel Adib and Zachary Kabelac presented “Emerald”, a system that can monitor breathing, heart rate and changes in gait and body elevation with such precision that it may soon be able to "PREDICT DECLINES IN HEALTH" and increased risk of falling.

 

Katabi says that every year 2.5 million elderly Americans are treated in emergency rooms because of falls, costing over $34 billion annually.

 

A more traditional way to try to solve this problem is with wearable technology, but most older people don’t want to have to always wear a special watch or pendant. Instead, Emerald uses one in-home sensor and data analytics to track a person’s movements from the radio waves that reflect off their body, without requiring the monitored person to wear any sensor on their body

 

At the first-ever White House Demo Day, President Obama met with entrepreneurs including a team from MIT's Computer Science and Artificial Intelligence Lab that demonstrated a device to prevent falls among the elderly. Obama also remarked about the need to give more entrepreneurs from all walks of life a chance to turn their ideas into indispensable products and services.
Video: The White House https://youtu.be/3ChKSyZUtVw

 

If a fall is detected, the device immediately contacts the individual’s caregiver and after a period of three minutes, calls an ambulance. Similar to a Wi-Fi router, Emerald works even if the person is in a different room than the device.

 

Emerald was named a finalist of MIT’s $100K Entrepreneurship Competition in May. The technology is based on the CSAIL researchers' work on “WiTrack”, which uses wireless signals to detect movement and vital signs. The team was one of only eight groups selected from across the country to present their innovations directly to President Obama, who described the visiting technologists as “heirs to Lewis and Clark and Jonas Salk”.

 

“I’m surprised that you got a sensor that is that sensitive from that distance to be reliable enough to get meaningful data,” Obama said to the CSAIL team, after calling the device “pretty cool” and “fantastic”.
Katabi says that she’s hopeful that the device can help “empower the elderly to live safely and independently” and is also eager to see whether it may have other key applications in personal health, baby monitors and EVEN SEARCH-and-rescue.

 

More generally, she says the Demo Day itself made apparent how important it is to promote diversity in the world of innovation and entrepreneurship.
“Such a small percentage of start-up founders are women and people of color,” says Katabi. “It was refreshing to see that the government is interested in creating more opportunities for under-represented groups.”
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posted by Helena Csorba rfhurtslife@gmail.com