Visions (TV Mini Series 2022– )
Episode guide
- TV Mini Series
- 2022–
- 52m
IMDb RATING
6.3/10
60
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CrimeDramaFantasy
A girl has gone missing from a party in the Provence. (South of France) Her nephew sees dead people in his surroundings they give him visions. With a teacher and her man a police inspector t… Read allA girl has gone missing from a party in the Provence. (South of France) Her nephew sees dead people in his surroundings they give him visions. With a teacher and her man a police inspector they try to solve the missings and deaths.A girl has gone missing from a party in the Provence. (South of France) Her nephew sees dead people in his surroundings they give him visions. With a teacher and her man a police inspector they try to solve the missings and deaths.
- Creators
- Bruno Dega
- Jeanne Le Guillou
- Stars
- Louane Emera
- Soufiane Guerrab
- Jean-Hugues Anglade
Episodes6
Browse episodes
TopTop-rated1 Season2022
Photos14
Top cast
Louane Emera
- Sarah Sauvant
Soufiane Guerrab
- Romain Sauvant
Jean-Hugues Anglade
- Gérald Chabasse
Marie-Ange Casta
Julien Boisselier
- Stéphane Morand
Max Boublil
Robinson Stévenin
- Gary Mariani
Florence Janas
- Camille Delorme
Bruce Dombolo
- Ruben Sadri
Léon Durieux
- Diego Mariani
Sylvain Chiavaccini
- Gendarme Civil 1
Anne Marivin
- Sandrine Thureau
Ambre Quinchon
Alice Soyer
- Maya Galbez
Sophie Cattani
- Laëtitia
Axel Thebauld Korini
- Nathan Mercier
Clément Bresson
Léo Legras
- Didier Bell
- Creators
- Bruno Dega
- Jeanne Le Guillou
- All cast & crew
- Production, box office & more at IMDbPro
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Details
- Release date
- April 26, 2022 (France)
- Country of origin
- France
- Official site
- Official Site
- Language
- French
- Also known as
- Tödliche Ahnung
- Production companies
- Hanoï Productions
- TF1 Studio
- The Film TV
- See more company credits at IMDbPro
Technical specs
- Runtime
52 minutes
- Color
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“TVision is now an integral part of our measurement ecosystem.”
Paolo Provinciali
Head of US Media
Anheuser-Busch
“Attention is informing buying decisions at brands and agencies, so it’s powerful for our sales team to have this data to share.”
JT Peace
Associate Director of Ad Sales
The Weather Channel
“I believe that TVision plays a huge role in the future of TV measurement – they understand if someone is present or paying attention and I think those are powerful metrics for marketers to have.”
Joanne Leong
VP, Director, Global MediaPartnerships
Dentsu Aegis Network
3″ data-translatey=”75″>
“By calibrating our extrapolated household-level demographics to data from TVision’s panel we can provide person and demographic level data. Their co-viewing data is an important and necessary component to our solution and our support of NBC’s programming for The Olympics and the Super Bowl.”
Sean Miller
CEO
iSpot.TV
“TVision is at the forefront of bringing innovative technology to address this need and advance the very notion of audience measurement.”
Jane Clarke
Managing Director and CEO
Coalition For Innovative Media Measurement (CIMM)
“TVision’s panel enables VideoAmp to enhance our dataset with information about the actual humans in front of the TV.
”
Jonathan Steuer
EVP of TV Strategy & Currency
VideoAmp
“With TVision’s platform, we are able to identify how viewers are engaging with our premium programming and advertising.”
Scott Collins
President of Advertising Sales
AMC Networks
“With TVision we can deliver the granular and actionable insights on audience attention and viewing patterns to complete the cross-platform picture our customers are asking for.”
VP of New Product Development, Moat
Oracle
“TVision fills a void that has existed and is becoming increasingly important to pay attention to, which is whether people are actually being affected by advertising, when they’re paying attention.
”
Adam Gerber
President of Global Media
Essence
“With TVision we are able to add a deeper layer of insights to our already robust measurement offering.”
Robert Bareuther
SVP Business Development
iSpot.TV
“With TVision, now brands have the ability to optimize television and make it as accountable as we do in digital.”
Jay Altschuler
VP of Media Transformation
Petco
-
“TVision is now an integral part of our measurement ecosystem.”
Paolo Provinciali
Head of US Media
Anheuser-Busch -
“Attention is informing buying decisions at brands and agencies, so it’s powerful for our sales team to have this data to share.”
JT Peace
Associate Director of Ad Sales
The Weather Channel -
“I believe that TVision plays a huge role in the future of TV measurement – they understand if someone is present or paying attention and I think those are powerful metrics for marketers to have.
“Joanne Leong
VP, Director, Global MediaPartnerships
Dentsu Aegis Network -
“By calibrating our extrapolated household-level demographics to data from TVision’s panel we can provide person and demographic level data. Their co-viewing data is an important and necessary component to our solution and our support of NBC’s programming for The Olympics and the Super Bowl.”
Sean Miller
CEO
iSpot.TV -
“TVision is at the forefront of bringing innovative technology to address this need and advance the very notion of audience measurement.”
Jane Clarke
Managing Director and CEO
Coalition For Innovative Media Measurement (CIMM) -
“TVision’s panel enables VideoAmp to enhance our dataset with information about the actual humans in front of the TV.”
Jonathan Steuer
EVP of TV Strategy & Currency
VideoAmp -
“With TVision’s platform, we are able to identify how viewers are engaging with our premium programming and advertising.
“Scott Collins
President of Advertising Sales
AMC Networks -
“With TVision we can deliver the granular and actionable insights on audience attention and viewing patterns to complete the cross-platform picture our customers are asking for.”
VP of New Product Development, Moat
Oracle -
“TVision fills a void that has existed and is becoming increasingly important to pay attention to, which is whether people are actually being affected by advertising, when they’re paying attention.”
Adam Gerber
President of Global Media
Essence -
“With TVision we are able to add a deeper layer of insights to our already robust measurement offering.”
Robert Bareuther
SVP Business Development
iSpot.TV -
“With TVision, now brands have the ability to optimize television and make it as accountable as we do in digital.
”Jay Altschuler
VP of Media Transformation
Petco
“
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Active-impulse television devices: 24/7 all-weather vision
In the “Science” rubric | To the list of rubrics | To the list of authors | To the list of publications
Long-range 24/7 all-weather vision is the most significant advantage obtained when using active-pulse television devices (AI TV devices). The combination of laser, television and optoelectronic technologies doubles the observation range compared to classic night vision devices. AI TV devices are promising for use in security systems for objects, borders, territories, water areas and airspace
Viktor
Volkov
Professor of the Department of RL-2 MSTU. N.E. Bauman, Doctor of Technical Sciences, Academician of the Russian Academy of Natural Sciences
Boris
Sluchak
General Director of Talos Company
In modern security technology, active-pulse television devices are used, designed for round-the-clock all-weather observation of the surrounding space, detection of hidden objects, optical and optoelectronic devices [1].
The principle of operation of AI TV devices is based on pulsed illumination of the observed object with laser radiation and pulsed control (strobe) of an image intensifier tube (ETC) synchronized with it, coupled to the CCD matrix of the receiving TV observation unit [1].
Capabilities of AI TV devices
AI TV devices make it possible to increase the contrast of the image of the observed object, and hence the range of the device due to the delay cut-off of backscattering radiation, which in conventional active night vision devices (NVD) is superimposed on the image of the observed object and reduces the contrast of the picture even with normal or slightly degraded atmospheric transparency.
Since the object of observation is perceived within a very narrow depth of the space being viewed, the background behind the object is cut off. This makes it possible to observe low-contrast objects that are not visible either at night with the help of passive or active optical-electronic devices, or even during the day with the help of conventional optical observation devices.
Since the image of the observed object appears only at a certain delay value corresponding to the distance to the object, the value of this delay can be used to measure the distance to the object with an accuracy of ±5 m. the flame of fires, etc.) is weakened by a multiple of a number equal to the duty cycle of the device (provided that the image intensifier tube is sufficiently reliably locked) – up to 105–107 times. This allows for 24/7 surveillance.
AI TV device can operate in passive, active-continuous (with backlight, but without strobing) and active-pulse modes (depending on external conditions). The image can be observed in positive (light object on a dark background) or negative contrast (dark object on a light background). A round-the-clock search for objects can be carried out by the glare of laser illumination reflected from optical or optoelectronic means of these objects. The detection range of objects by glare can reach several kilometers [1]. 9
Overview of AI TV devices glare windows of buildings and cars, determination of the distance to the observed objects, manual and remote control, universal power supply.
“Prizrak-M”
from Talos
A specific example of an AI TV device is the Prizrak-M model held in the hands [2]. The range of recognition of a human growth figure (RF) is up to 600 m, a truck – up to 900 m. The angle of view is 5.5×4.1 degrees. The detection range of the PSO-1 sniper sight is up to 1200 m. The time of continuous operation from the built-in rechargeable battery is up to 3 hours. The mass of the AI TV device with the battery is 1.7 kg. Overall dimensions 225x145x70 mm. The video signal standard is CCIR/PAL. External control protocol – RS-485.
Prizrak-S
Talos
Another variant is AI TV-device “Prizrak-S” of mobile and stationary base [2]. The range and field of view are the same as those of the Prizrak-M device. The mass of the AI TV device with a thermal casing is 6.5 kg. Overall dimensions 175x168x493 mm. Video signal standard – CCIR/PAL/IEEE 1394. External control protocol – RS-485/USB.
Operating voltage is ~100-240V/10-30V. Power consumption is 60W (including heating). Illumination zone range – from 0 to 2000 m; illumination zone depth – instantaneous 10, 20, 50, 100, 200, 500 m and full from 0 to 2500 m; relative backlight power (brightness) – 1, 1/2, 1/4, 1/8, 1/16. The range of working temperatures makes – 40…+60 °C.
Gated TV Viewing System
by Video and Optical Systems
Video and Optical Systems Ltd. (Great Britain) has developed an AI TV-device based on an (EOP + CCD) matrix with the number of elements 610×575 [3]. Overall dimensions of the chamber: 38.1×70.5×117.5 mm. The AI TV device consumes a direct current of 400 mA at a supply voltage of 12 V. A semiconductor laser illuminator mounted on top of the TV camera body has an average output power of 30 mW at a wavelength of 830 nm. The range of the AI TV device is 100 m. The lens of the observation device has an adjustable iris diaphragm. The more powerful Z130 laser illuminator provides a range of up to 1 km.
Other modifications of this system allow to increase the range up to 4 km.
L 2001
from NITECAM
NITECAM (Israel) has developed an AI TV device – model L 2001 [4]. The device can operate at a line rate of 625 or 525 Hz at a frame rate of 25 and 30 Hz, respectively. Device resolution – 350 TVL. Indicator – TV monitor with a screen size of 50 mm. Operating illumination 10–4 lx, operating spectral range 500–900 nm. The lens of the observation device is a zoom with a focal length adjustable from 16 to 160 mm with a relative aperture of 1: 1.8 with automatic adjustment of the iris diaphragm. The angle of the field of view varies from 40 to 4 degrees. The range in absolute darkness is 100 m. The laser semiconductor illuminator has an average radiation power of 10 mW, an operating wavelength of 820–850 nm. The safe visual distance is 10 cm from the laser illuminator. The AI TV device is powered by a voltage of 10–16 V at a constant current of 1.
5 A. Dimensions of the AI TV device: 585x280x240 mm (without battery, but including the viewfinder and optics).
ARGC-2400
Obzerv
Obzerv (Canada) has developed the ARGC-2400 AI TV device [5] with a human detection range of 8 km and its recognition of 3 km. The angle of the field of view varies from 0.15×0.11 to 0.61×0.46 degrees, and the magnification is from 240 to 60 times. The laser illuminator has an average output power > 4 W at a wavelength of 860 nm. The weight of the AI TV device is < 55 kg, the dimensions are 560x520x370 mm, and the power consumption is < 350 W. Operating temperature range: -31...+55 °С [5].
“PAIN”
from “Kathod”
The branch of OAO “Katod” (Russia) has developed the AI TV device “PAIN”, designed for monitoring and night driving of vehicles [6]. The AI TV device provides a range of 200 m, a field of view angle of 16×12 degrees, has a supply voltage of 12 V, and a mass of 4.
8 kg. The AI TV device includes a video module with two semiconductor illuminators and a TV monitor with a control panel.
NORD LYNX
from TURN
The firm “TURN” (Russia) has developed a multi-purpose AI TV device NORD LYNX [7]. Its range is 3-300 m, the depth of the space being viewed is 30-100 m, the field of view angle is 20×15 degrees. The AI TV device has a supply voltage of 12 V, power consumption of 150 W, weight of 20 kg, dimensions of 350x300x150 mm. The operating temperature range is: -45…+40 °С for the electron-optical unit, and +5…+40 °С for the TV monitor.
Results of using AI TV devices
4 on the left shows the window of the building opposite the instrument, illuminated by the sun. The window glass is dirty and glare in the sun. Behind the glasses, practically nothing is visible either to the naked eye or to an ordinary TV device operating in passive mode. The same window is shown on the right, but a TV device observed in AI.
Behind the glass you can see the figure of a man, indoor flowers on the windowsill and the door to the room.
5 on the left shows a car parked in the yard with tinted and glare windows. Nothing can be seen behind the glass either when observing with the naked eye, or in an ordinary TV device operating in passive mode. On the right is the same car, but the TV device observed in the AI. Behind the windows you can see the interior of the cabin: seats and armrests.
6 on the left shows the soldiers of the special forces observed in the AI TV device, walking at night along the edge of the forest. The distance to them is 430 m. The figure demonstrates the effect of highlighting the object of observation on the underlying surface or separating objects by range. On the right, you can see a special forces soldier in camouflage clothing coming out of the forest at night. The distance to the fighter is 120 m. Here, the effect of highlighting the object of observation by IR contrast against the surrounding background is demonstrated.
7 shows a special forces fighter observed in the AI TV device walking along the edge of the forest. The image of the fighter is observed in negative contrast.
8 shows the detection of optical means by means of an AI TV device on a sunny day. On the left – a glare from the BPO binoculars, the distance to which is 970 m. On the right – a glare from the PSO-1 sight, the distance to which is 1010 m.
AI TV devices in security systems
Further development of AI TV devices is associated with their use as a stationary device for protecting objects, borders, territories, water areas and airspace as a device for round-the-clock and all-weather surveillance with an increased range, a device for detection of moving objects (vehicles, water and air transport, unmanned aerial vehicles, etc.). It is possible to combine the device with other detection and vision systems: thermal imaging devices, radar stations, and in the case of underwater vision – with sonars.
Literature
- Geikhman I.L., Volkov V.G. Vision and security. – M.: News, 2009.
- Opto-electronic devices for special purposes / Catalog of the company “Talos”. – M., 2014.
- Gated Viewing System / Prospectus of Video and Optical Systems Ltd., UK, 2007.
- Night Vision Range – Gated TV Camera / NITECAM brochure, Israel, 2005.
- Portable, Long-Range Active Range-Gated Camera ARGC-2400 / Obzerv prospectus, Canada, www.obzerv.com.
- Night driving device “PAIN” / Prospectus of the branch of OAO “Katod”, RF. – M., 2013. www.katodnv.com.
- Laser night vision system NORD LYNX / Brochure of the company “TURN”, RF. – M., 2014. www.turn.ru.
Published: Security Systems Magazine #3, 2014
Visits: 14710
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Author 90 003
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E. Bauman, Doctor of Technical Sciences, Academician of the Russian Academy of Natural Sciences |
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Classification of electron-optical surveillance systems – Articles CJSC “Rospribor”
Electro-optical visualization systems designed to monitor the area directly by the user of such devices can be divided into three main types: night vision devices, television cameras and thermal imagers.
The use of NVG night vision devices (also called I2S night vision devices) can significantly improve the sensitivity of the observer’s eye when observing the landscape at night. The use of television cameras makes it possible to generate images of a landscape in high quality color or monochrome in daytime conditions with a recording of the observed image for subsequent processing of the recorded image and its transmission using modern telecommunications. Some types of television cameras (eg LLTV) are highly sensitive and can be used at night. The conditions for the use of such TV cameras are similar to night vision devices. Thermal imaging cameras are produced with different spectral ranges, which allows them to be used in conditions of poor visibility and complicates the use of camouflage by the enemy. All of the above visualization systems are designed to work in a narrow field of view and provide visualization of the smallest details of the observed landscape, while improving the spatial resolution of the human eye.
Night vision devices (NVDs) are imaging systems based on an image intensifier tube (IC) consisting of a photocathode and an anode in the form of a phosphor screen and other additional components. The image intensifier tube allows you to enhance the low-brightness image of the observed landscape on the photocathode into a brighter image on the anode. A night vision device is a direct viewing device that generates an output image that is optically enhanced relative to the input image. Night vision devices can be considered as optical enhancers of the landscape in low light conditions, in which the naked human eye does not allow effective observation.
Television cameras are fully electronic devices that convert an input optical image into an electrical signal, after processing and electrical amplification of which it is converted into an analog and / or digital image generated at the output in a format used by television and video technology. The television technologies used make it possible to record, process and transmit images of the observed landscape.
Currently, there are a huge number of television cameras: CCD color and monochrome cameras, CMOS color and monochrome cameras, enhanced CCD cameras, cooled CCD cameras, CCD cameras, silicon diode cameras and electrostatic transfer section, chambers with a silicon diode matrix and electrostatic transfer section combined with an image intensifier tube, as well as other types of cameras.
Thermal imagers refer to imaging systems that are sensitive to medium and long-wave infrared radiation, allowing the generation of an image of the observed landscape using the thermal radiation emitted by the landscape.
Initially, the origin of all these three groups of electron-optical systems is associated with the need and their use for military purposes. However, at present, such imaging systems are increasingly being used not only for military purposes, but also for civilian purposes.
Depending on the type used to generate an image of the observed landscape, electron-optical imaging systems can be divided into two main groups:
Imaging systems with a spectral bandwidth of more than 3 µm belong to the first group. Visualization systems having a spectral band of wavelengths located in the visible region or in the visible in the near infrared region in the range of not more than 1 μm belong to the second group.
Night vision devices and television cameras are sensitive to visible and visible infrared radiation in the wavelength range up to about 1 µm, since the Sun, Moon and starry sky emit radiation mainly in the visible and visible in the near infrared region spectral range. Thermal imaging systems operate in the mid and far infrared spectral range from 3 µm to 15 µm, since the observed landscape and targets on Earth mainly emit radiation in this spectral range. Therefore, the spectral sensitivity frequency of night vision devices and television cameras at least partially overlaps the spectral characteristics of the mid and far infrared range from about 3 mm to about 15 mm, since the targets of typical temperatures on Earth radiate mainly in this spectral band.