Proton Elic RB-I M-4 ARMORED

PROTN ELIC RB-I M-4 PROFESSIONAL SERIES

PROTON ELIC RB-I M-4 PROFESSIONAL HE IS A MONSTER

M-4 Professional underground imaging device domestic and national the world's latest technology digital sensor device completely developed by our company Assuva defense industry engineers has been simplified. Command screen, High solution, 64 PXS Digital Thermal sensor, Three-axis magnetic. Digital sensor, adjustable axes, Personal sensitivity settings robust and lightweight body easy portable box design.

LET'S KNOW THE DEVICE IN BRIEF

The M-4 device has a completely digital sensor. The device's magnetic sensor consists of three axes (XYZ) axes automatically scan, on the other hand, the rear command screen of the device is used when visual touch is desired.

For example; one-way ( Z ) axis scanning or scanning can be done by adjusting different axes such as ( X, Y ). In this scanning device, the command signal intensity on the back of the device can be seen and there is a rising and falling signal OSCILLATOR. It rises upwards in metallic objects and is represented by red color. This situation processes the fluent instant signal.

The dark blue acid collector also descends downwards in formations such as light blue spaces (Room, Tunnel, Passage) on a wide background or void.

On the other hand, this scanning process and all of these operations can be seen on the command screen without being connected to a PC. The processed data can be seen when the PC is connected.

Thermal sensor has 64 PXS features and digitally processed data visualization and definition are very high.

In this scanning format, the full screen behind the device's rear command 64 PXS offers the opportunity to see each point on the screen with high resolution and equal height.

When desired, these scans can be viewed in 3D with a clear view of the processed data with pc connectivity. The data received on the command screen and the PC may differ by (1.2) units in terms of values. However, the ground difference of the scan will be much more normal than the value seen with an exact measurement in night scans and in elements such as wet ground, snowy ground, bumpy ground, thermal mode scanning will be detected.

What's more, both sensors' sensitivity can be assigned to the desired increase and decrease level on the device's own command screen. And in a very dirty area, for example; When scanning in areas with waste metal, comfortable and smooth images can be obtained. And much more personalized.

Areas of Use

1. Museum and Geoarchaeological Research: PROTON ELIC RB-I M-4 device can be used to obtain more accurate and faster results in ground pre-definition processes and studies in historical and archaeological areas.

2. Astronomy Institutes and Meteorologists: The PROTON ELIC RB-I M-4 instrument, which offers a three-dimensional panoramic display, can be used in meteorite and meteorite research.

3. Earth Science Departments of Universities and Schools: PROTON ELIC RB-I M-4 device can be used for education and research purposes in earth science departments of universities and schools.

4. Underwater Material and Imaging: PROTON ELIC RB-I M-4 device can be used in underwater material and imaging studies.

5. Institutions and Organizations such as AFAD, UMKE: PROTON ELIC RB-I M-4 device can be used in search and rescue and post-earthquake life detection operations.

6. Hobby and Professional Treasure and Archaeological Research: PROTON ELIC RB-I M-4 device can be used for hobby purposes or professional treasure and archaeological research.

7. Municipalities: PROTON ELIC RB-I M-4 device can be used for pipe and large water leak detection, ground definition before underground excavation and lost pipe, pipe and manhole detection.

8. NATO Pipeline Protection Responsible Institutions and Organizations: PROTON ELIC RB-I M-4 device can be used to detect illegal pipeline drawing lines.

9. Detection of All Anomalies in the Ground and Underwater: PROTON ELIC RB-I M-4 device is suitable for use in the detection of all possible anomalies in the ground and under water.

Technical Specifications

1. Radar: The PROTON ELIC RB-I M-4 device is equipped with microwave Doppler radar technology.
2. Frequency: The operating frequency of the device is 433 MHz.
3. Scanning Frequency: It has a maximum scanning frequency of 5 GHz.
4. Laser: The device is supported by 1pps laser technology.
5. Digital Sensor Scanning: 64 PXS digital sensor scanning feature is available.
6. Magnetic Sensor: Equipped with 3-axis magnetic sensor.
7. Maximum Depth: It has a depth scanning capacity of up to 50 meters.
8. Maximum Scanning Range: It has a scanning range of 1000 meters.
9. Working Temperature: Compatible with working temperatures between -20 and +40 degrees.
10. Good Usage Result: It works with a 95% success rate.
11. Software Presentation Format: 3D & 4D (DAT) CVS format is presented with 3D transfer.
12. Battery Life: With a power capacity of 20,000 mAh, it offers a usage time of 30-50 hours (may vary depending on weather conditions).
13. Warranty Period: The device is under warranty for 2 years.

Scope of Delivery

1. Carrying Case: Black, G-Shok waterproof case.
2. Backpack: Mil-Tec brand backpack.
3. Device Main Unit: PROTON ELIC RB-I M-4 main unit.
4. Prop Sensor: Included.
5. Power Cable: The power cable required for the device.
6. Power Bank: Portable charger.
7. Charging Adapter: Included.
8. Neck Strap: Provides ease of use.
9. User Manual: Contains information on using the device.
10. User CD: A CD containing usage information.

Optional Accessories:

1. GPS Antenna: Optionally added GPS antenna.
2. Custom Production Principles: Possibility of custom production upon request.
3. Box Type and Shape Differences: Different box options are available.

Documents Owned

1. NATO Stock Code: NCAGE-TH763
2. World Standards (CE) Certificate
3. ISO 9001 Quality Certificate
4. ISO 22000 Food Safety Management System Certificate
5. ISO 45001 Occupational Health and Safety Management System Certificate
6. ISO 27001 Information Security Management System Certificate
7. ISO 10002 Customer Satisfaction Management System Certificate
8. ISO 18001 Occupational Health and Safety Management System Certificate
9. OHSAS 18001 Occupational Health and Safety Quality Assurance Certificate

Note: VAT is not included in our prices!

Proton ELIC RB-I M-4: Remote Detection and Analysis Solutions with High-Precision Thermal and Magnetic Sensors

Proton ELIC RB-I M-4 device stands out with its rapid detection capability and technical information presentation. The device works with thermal and magnetic sensors to enable the remote detection of the sought target.

The thermal sensor is equipped with a 4-row and 16-column 64 PXS thermal camera. In this way, it can see thermal differences in the area it looks at with a 60-degree viewing angle at 64 PXS resolution. The magnetic sensor measures the DC magnetic field strength at its location. 64 sensors enable rapid data collection by measuring the magnetic field at 64 different points simultaneously.

The system can be selected and operated as thermal or magnetic. After data is collected from all sensors, the data is sent to the computer software via Bluetooth along with the information on the direction being viewed. In the computer environment, the camera creates an image as the color correspondence of the thermal or magnetic field intensity by painting the inner surface of the sphere in the relevant colors.

The Proton ELIC RB-I device instantly shows the depth and location of the target to the operator on the computer screen thanks to thermal and magnetic sensors. It also provides detailed information about the target and its type of metal. In addition to quickly detecting structures such as rooms, tunnels, shelters, buried ammunition and vital materials, the device can also detect elements hidden behind trees or under snow with thermal sensors.

This data presentation has become very easy to use and understand thanks to the 3D visual special software. While the user can get instant data presentation with the start and stop command, all commands and software have Turkish menu.

When requested, this data can be instantly displayed on the map and GPS recording can be obtained. The software is adapted for this situation.

The device can be used alone by one person.

DESCRIPTION

• TECHNICAL FIELD: It is related to the operating system of a three-dimensional panoramic display device that can take 360-degree images and data recording, obtained by combining any desired sensor with an IMU sensor.
• INFRASTRUCTURE OF MY SITE: Today, technology is developing and updated every day. Three-dimensional (3D) image formation is also one of the developing technologies. While it is easy to perceive the width and height ratios of an object with the eye, it is not possible to perceive the depth of the same object. Separate images are provided for the right and left eyes, and a three-dimensional image is formed by the combination of these two images in the brain. 3D photo or film cameras also function in a similar way and record using a recording technique. In other words, they capture the image from a separate lens and record it.

3D Film Shooting and Three Dimensional Panoramic Image Systems Today

3D film shooting and three-dimensional panoramic display devices have an important place in today's rapidly developing technology. In this article, we will examine the technological developments in these areas by focusing on the camera techniques used in 3D film shooting and three-dimensional panoramic display devices.

In 3D filming, two cameras record the image by focusing on the same point and moving in the same path. In this way, separate images are obtained for the right and left eyes, and a three-dimensional image is formed by the combination of these two images in the brain. It is important that the cameras are fixed to each other to eliminate unwanted movements and differences.

Three-dimensional panoramic display devices and operating systems are obtained by combining sensors that can take 360-degree images and data records with IMU sensors. Such systems provide wide-angle images that also include depth information that cannot be perceived by the eye. Panoramic cameras can obtain both 180-degree and 360-degree panoramic images using one or more lenses.

Panorama allows multiple images taken from different angles to be combined into a single wide-angle image. The sound and images obtained with the panoramic camera are stored in the data recording medium, and the image data measured or recorded through image processing can be transferred between electronic media with the help of computers and software.

As a result, 3D filming and three-dimensional panoramic display devices are constantly evolving areas of technology. Thanks to these technologies, more realistic and impressive visual experiences can be provided. Therefore, it is of great importance to follow the developments in these areas and keep up with innovations.

Three-dimensional Images and Sensors in Technology: Innovative Panoramic Display Device and Operating System

In the current technical situation, three-dimensional images obtained by combining two-dimensional data (x and y axis) and recording data from only one sensor at a time are in question. Data collection and visualization are performed by keeping the sample fixed to the ground with the sampling method, and positioning is done manually or with technologies such as GPS. Users travel around every point of the area they will research, collect samples and access visual data.

Nowadays, sensors that connect electronic devices with the physical environment vary according to their input sizes. Variables such as temperature, pressure, wavelength, current, concentration and permeability are measured by mechanical, thermal, electrical, magnetic, radiation and chemical sensors and converted into electrical signals. Sensors are divided into passive and active sensors according to their energy supply. While passive sensors measure the signals they receive from the environment, active sensors measure the interaction of the external environment with the signals they produce and require more energy.

Active sensors provide analog or digital signal output depending on the type of signal they produce. In analog sensors, the signal is converted to a digital signal using analog-to-digital converters before being directed to the microcontroller. Digital sensors, on the other hand, produce discrete signals without continuous variation in input and output values.

This invention, a three-dimensional panoramic display device and operating system; while sending signals to the microcontroller with analog or digital sensors, unlike the current technical situation, combines it with IMU (Inertial Measurement Unit) to provide 360-degree three-dimensional panoramic image and data recording. Thanks to this invention, the device communicates with the main unit via USB, Bluetooth or Wi-Fi. The main unit sends the data from the connected sensors to the program with the three-dimensional 360-degree posture angle obtained from the IMU sensor and

It projects a viewing angle from the center of the screen to the inner wall.

Innovative 3D Panoramic Display and Sensor Integration

Thanks to this pioneering technology, more comprehensive and effective analyses can be performed with the integration of 360-degree three-dimensional panoramic images and sensor data. Instead of collecting samples by walking around the area where they will conduct research, users can access visual data more quickly and effectively with this innovative device.

In addition, the device's energy efficiency and sensor diversity allow it to be used in different application areas. In this way, it becomes possible to obtain new and more accurate information in fields such as agriculture, construction, archaeology, geography and environmental science.

As a result, this three-dimensional panoramic display device and operating system, thanks to the development of technology and sensor integration, offers more effective and comprehensive data collection and visualization opportunities compared to the current technical situation. This innovative solution will provide a great advantage for professionals and researchers working in the field, helping them reach faster and more accurate results.

With this innovative software, users can obtain a 360-degree field of view and examine panoramically with the analyses performed in the computer environment and the records transferred to the computer. This process includes stance angle calculations using the quaternion data received from the IMU sensor.

Based on the angle of repose calculations, the inner shell of the sphere can be viewed at any desired angle and the anomaly differences at the shooting point can be examined in detail. Depending on the angle of repose obtained, the relevant region on the inner wall of the sphere is painted with certain colors according to the intensity of the sensor data.

In this way, the user holds the sensor at different angles, allowing the inner wall of the sphere to be colored according to the signal level received from the sensor. After a certain scanning process, the software begins to show a visual representation of the signal intensity on the inner wall of the sphere. Using various signal processing and interpolation algorithms, the effect of the visual shapes is increased, thus obtaining clear images even at low signal levels.

Details of the structure and features of the invention and all its advantages can be better understood with the relevant figures and detailed explanations provided below. This evaluation should be made by taking the figures and detailed explanations into consideration.

Auxiliary Figures and Explanations:

Working system diagram of three-dimensional panoramic display device

Helpful References:

1. Microcontroller
2. IMU sensor
3. Digital sensors
4. Analog sensors
5. Control buttons
6. LCD panel
7. Wireless module

a. Transmitting the signal from digital sensors to the microcontroller via a digital communication line b. Transmitting the signal from the microcontroller to the computer via a wired communication line c. Transmitting the signal from analog sensors to the microcontroller via an analog communication line d. Transmitting the signal from the microcontroller to the wireless module via a wireless communication line

Description of the Invention

The invention relates to a three-dimensional panoramic display device and operating system consisting of microcontroller (1), IMU sensor (2), digital sensors (3), analog sensors (4), control buttons (5), LCD panel (6) and wireless module (7) components.

This advanced technology helps users make their research and studies more efficient by providing them with more precise and effective analysis.

This innovative invention draws attention with its integrated three-dimensional panoramic display device and operating system. The system includes components such as the microcontroller (1) that combines the data received from the sensors with the IMU sensor (2), the IMU sensor (2) that detects movement at 360 degrees, digital sensors (3) that provide digital communication, analog sensors (4) that provide analog communication, control buttons (5) that provide user control, the LCD panel (6) that displays settings and instant data, and the wireless module (7) that provides wireless communication.

The operation of the invention is realized by transmitting signals from digital and analog sensors to the microcontroller, signals from the microcontroller to the computer and signals transmitted to the wireless communication module. This system, which can work with thermal and magnetic sensors, provides three-dimensional panoramic images and data recording.

These records can be examined in a computer environment and panoramic images can be obtained at any desired angle towards the inner shell of the sphere. The invention is compatible with magnetic, electromagnetic, thermal and optical sensors. Users can obtain three-dimensional images with a 360-degree viewing angle.

The main unit of the invention measures the magnetic field strength with a 16-bit ADC while receiving the attitude angle from the IMU sensor via the I2C protocol. These data are combined panoramically and sent to the computer via Bluetooth or other interfaces in real time. The three-dimensional panoramic display device and operating system allow users to collect 3-axis 360-degree data.

This invention allows users to collect data at 360-degree angles on 3 axes without moving away from the focal point. This is a similar process to 3-axis cameras, allowing users to rotate around and obtain 360-degree images on 3 axes. This technology provides more precise and effective analysis, making users' research and work more efficient.

The ability to detect underground structures and work in difficult ground conditions are among the important advantages and features offered by the three-dimensional panoramic display device. Thanks to this technology, ground analysis and underground exploration can be used to obtain faster and more accurate results. Below is more information about the remarkable features and areas of use of this device.

1. High Sensitivity Magnetic Sensors: This device is capable of detecting and analyzing underground structures using 1V/50uT sensitivity magnetic sensors operating in the TT-140 coded fluxgate technique. This feature provides more accurate information about underground structures and ground conditions.

2. Digital and Analog Sensor Connection: Thanks to the ability to connect both digital and analog sensors, the device has a wider range of use and more data collection capacity.

3. Real-time Data Transmission: The three-dimensional panoramic display device can transmit the collected data to the computer in real time via Bluetooth or other wireless interfaces. This feature provides the opportunity to make fast and effective analyses.

4. Comprehensive Inspection and Visualization: The software provided by the device allows inspection and visualization of underground structures and ground conditions from a 360-degree angle. In this way, users can perform more comprehensive and accurate analyses.

5. Various Sensor Options: This device can work with different types of sensors such as magnetic, electromagnetic, thermal and optical sensors. This feature allows the device to offer a wider range of applications in different usage areas and ground conditions.

In summary, the three-dimensional panoramic display device provides significant advantages and areas of use in the field of ground analysis and underground exploration by providing the ability to detect underground structures and work in difficult ground conditions. Thanks to the features and areas of use of this device, it is possible to reach more accurate and comprehensive information about underground structures and ground conditions.

Detection of Underground Structures: Detection of Formations Such as Tunnels and Caves

The device is effective in detecting underground structures that are made by hand or carved in natural ground. It can successfully detect tunnels, caves and storage type formations made by carving in reinforced concrete, masonry walls or rock ground.

Trouble-Free Operation in Difficult Ground Conditions

This device works flawlessly in all ground conditions such as wet, snowy, icy, rocky, rugged and mineralized, and provides reliable and uninterrupted service to its users.

Depth and Distance Detection Features

Thanks to the depth and distance detection features in the device's software, users can access detailed information about the location and depth of underground structures.

As a result, this device, which offers effective performance in detecting underground structures and can work without problems in difficult ground conditions, provides its users with a reliable and uninterrupted service. In addition, it is possible to access detailed information about the location and depth of underground structures with the depth and distance detection features of the device. These features further increase the usage areas and success of the device.

Proton ELIC RB-I M-4 Thermal Camera: High Performance and Affordable Price

Proton ELIC RB-I M-4 thermal camera is a high-performance device used in industrial and security areas. Here are the highlights and pricing information of this device.

Proton ELIC RB-I M-4 Thermal Camera Features

The Proton ELIC RB-I M-4 thermal camera offers users precise temperature measurement and high-resolution imaging. This is why businesses and security teams prefer this camera to detect energy loss, temperature changes and potential hazards.

Proton Thermal Camera and Assuva Proton ELIC Prices

Proton thermal camera series, especially Proton ELIC RB-I M-4 model, attracts the attention of users with its affordable price options. Assuva Proton ELIC prices are at a very competitive level according to the performance of the device. Therefore, Proton M4 will be an excellent choice for high quality thermal imaging.

High Quality Imaging with Proton M4 and Proton ELIC Series

Proton M4 and Proton ELIC series thermal cameras provide high-quality imaging and precise temperature measurement. These features enable businesses and security teams to make more effective decisions regarding energy management and security.

As a result, the Proton ELIC RB-I M-4 thermal camera stands out as a high-performance and affordable option. This device can be successfully used in energy management, security and industrial applications. For more information about Proton thermal cameras and Assuva Proton ELIC prices, you can visit official sales channels and distributors.