2002
World's First USB-Connected Computerized Hair and Skin Analysis Devices v.1
At the end of the 1990s, when USB technology was still beginning to take shape globally, GriMed*, the company that laid the foundations of ForenScope, was established.
GriMed: Producing imaging systems and software for the medical and medical-aesthetic fields, GriMed decided over time to expand into the global market. Because the registered ForenScope brand had strong recognition in the global market and was easy to pronounce in many languages, the company changed its name to ForenScope in 2014.
The R&D team within GriMed* was aware of the major importance of this digital transformation in imaging. In 2002, the company began preparing a pioneering innovation in medical and aesthetic imaging, the field for which it had been founded. As a result of these efforts, the “World’s First USB-Connected Digital Hair and Skin Analysis Device”, which brought together advanced software algorithms and high-resolution optical systems, was introduced to the industry. Need-based modifications on OEM-produced cameras and lenses were carried out by the R&D team in Türkiye. In addition, imaging and archiving software developed entirely in-house for this system was used. This technology was the first step in moving diagnostic processes beyond purely observational methods and giving them a data-driven and measurable structure.
Scientific Foundations: Cerrahpaşa and “Digital Atlas” Collaboration
Moving beyond the production of a simple imaging tool, we implemented “Digital Atlas” (data comparison) technology, one of the first examples of its kind in the world. This system allowed live images to be compared simultaneously with digital datasets containing hundreds of cases. This user-based software ran the live image on one half of the screen while displaying diagnosed images divided into groups, together with their explanations, on the other half of the computer screen in real time. In this way, a doctor or aesthetic specialist could reach a diagnosis and inform the patient quickly without having to search through books. In principle, it was identical to the early examples of today’s AI-based diagnostic systems.
The developed “World’s First USB-Connected Hair & Skin Analysis Device” quickly became the standard for the promotional operations of global pharmaceutical and cosmetic giants in Türkiye. Because the limited R&D team did not speak foreign languages and had no global market experience, these efforts initially became local solutions for global brands. This R&D-based journey, which began as a local manufacturer, evolved over time into a vision that produces advanced technology and exports to more than 100 countries worldwide. Our first devices and solutions, which transformed scientific data into visual evidence, were preferred by the industry’s most prestigious brands.
→ MSD (Merck Sharp & Dohme)* : In alopecia areata treatment, considered a reference field in hair health, patient follow-up and clinical analysis processes in local studies carried out with universities in Türkiye were conducted using GriMed’s high-resolution imaging technology.
→ Bayer* : This giant of the pharmaceutical industry directly used our systems in the dermatology and pharmacy field studies of Priorin hair products in Türkiye. It also positioned our Digital Atlas-based systems as a technology solution for dermatology clinics and pharmacies in physician information and data verification processes.
→ Pfizer* : This giant of the pharmaceutical industry positioned our Digital Atlas-based systems as a technology solution for dermatology clinics in dermatologist studies for Regaine hair products in Türkiye.
→ Industry Leadership* : While brands such as P&G (OLAY), Pierre Fabre (Ducray and AVENE*) and Mikrogen İlaç (REVIGEN*) became the first institutions to launch professional computerized hair and skin analysis services in the pharmacy channel in Türkiye, the technical infrastructure of this transformation was provided by our engineering.
2004
computerized skin cancer detection devices; video dermatoscope v.1
The Video Dermatoscope V.1 and Griscope Era
In the same year, we introduced our “Computerized Skin Cancer Detection Devices Video Dermatoscope v.1” device under the GriScope brand. This system, which was Türkiye’s first computerized video dermoscopy device, was used for more than 10 years in more than 100 university hospitals, public hospitals, private hospitals, and dermatologists’ clinics or practices for the early diagnosis and follow-up of skin cancer. This system enabled dermatoscopic polarized and non-polarized imaging of nevi or suspicious lesions at 30x, as well as the diagnosis and follow-up of hair diseases at 50x–100x; it was used together with imaging and follow-up software developed by the ForenScope R&D team. While this cost-effective system made access to video dermoscopy systems, which were very expensive at the time, easier, it became part of standard use in clinical diagnosis and, most importantly, follow-up processes.
Data Comparison with Cerrahpaşa and “Digital Atlas”
2005
Computerized Skin and Hair Analysis Devices v.2
Following the achievements we obtained in clinical dermatology in 2004, we launched the “Computerized Skin & Hair Analysis Devices V2” series in 2005 in order to bring our technology to a wider audience. These new-generation analysis systems became a comprehensive platform that measured critical parameters such as moisture, sebum, elasticity, and hair density with digital data.
The Data Era in the Pharmaceutical and Dermocosmetic Industry
The software algorithms we developed during this period began to be accepted as a “trust criterion” in the operational processes of the world’s leading pharmaceutical and cosmetic giants. Industry leaders such as MSD (Merck Sharp & Dohme), Pfizer, Bayer, L’Oréal, and Pierre Fabre (Ducray) preferred our computerized analysis systems in order to present the effectiveness of their products to end users with clinical seriousness. By establishing the technological infrastructure for the first professional hair and skin analysis days launched in the pharmacy channel, we became one of the pioneers of the “evidence-based sales” model.
The Power of Digital Atlas in Cosmetic Analysis
Expansion of the Vision
The computerized analysis systems we introduced in 2005 enabled ForenScope to move beyond being a clinically focused technology company and become an important technology solution partner for the beauty and health industry as well. The foundations of our global network, which today covers more than 100 countries, were laid in those years with the innovative analysis systems we developed and the strong industrial partnerships we established.
2008
computerized skin cancer detection devices; video dermatoscope v.2
Precision in Early Diagnosis
1. High-Resolution Macro and Micro Imaging
2. Time-Based Comparison (Side-by-Side Analysis)
2009
the world's first polarized colposcope for forensic medicine
2009 - Adnan Menderes University Department of Forensic Medicine
The Eye of Justice: The World's First Forensic Multispectral Colposcope
By 2009, ForenScope carried its optical technology expertise into one of the most sensitive fields for humanity and justice: Forensic Medicine. Developed as a result of strategic studies conducted with Prof. Dr. M. Selim Özkök from the Department of Forensic Medicine at Adnan Menderes University, the “World’s First Polarized Colposcope for Forensic Medicine” opened a new era in the history of forensic medicine, especially in the examinations of victims of sexual violence.
Making the Invisible Visible with Technology
At that time, standard video colposcopes developed for gynecology could only perform examinations under visible white light and from a distance. ForenScope engineering achieved a world first by integrating “polarized camera and polarized light” technology into these devices capable of Full HD live imaging. Thanks to this technology, especially in sexual assault and violence cases, subcutaneous vascular structures, ecchymoses (bruises), micro-traumas, and traumatic traces under the tissue that the human eye or standard cameras could not detect became visible with crystal clarity in polarized imaging mode, reaching up to 0.3 mm beneath the skin. Especially during examinations, even if the victim moved (a situation frequently encountered with young victims), the examination could be completed quickly without any additional adjustment.
• Video Recording and Documentation Feature: The recording capability transferred from our digital video dermoscopy experience enabled evidence to be submitted to courts to be digitally archived and reviewed retrospectively.
A New Era in the Physical Examination of Sexual Assault and Abuse Cases
2011
The World's First 18 MP Forensic Medical Polarized Colposcope System v.2
The World's First Forensic Medical Polarized MultiSpectral Colposcope System v.2
With this system, dozens of participants were trained at the IALM (International Academy of Legal Medicine) congress held in Istanbul in 2012 through the “Sexual Violence Victims and Clinical Forensic Medicine Examination Methods” workshop conducted by Prof. Dr. M. Selim Özkök, Prof. Dr. Mete Gülmen, and R&D Director Osman Eşki. ForenScope (GriMed) was also the main sponsor of this congress.
Technology That Guided the Global Literature
Although gynecological colposcopes were widespread worldwide in 2011, there was no other system capable of “Polarized” imaging and produced solely for “Forensic Medical” purposes.
A New Standard in Forensic Evidence Quality
2012
The World's First Mobile MultiSpectral Tablet
MultiSpectral Smartphone System Design, Patent Applications and Productization Process
When we designed this technology at the end of 2012, the concept of “Smartphone Dermoscopy” was still very new worldwide, and existing solutions consisted only of simple magnifiers. The Multispectral Imaging technology offered by ForenScope, with integrated software and replaceable Filter / Light / Battery, moved this field beyond hobby-level use and brought it to clinical and forensic standards.
A Pioneer on the Global Stage
Our invention of the world’s first Mobile MultiSpectral Smartphone device is the cornerstone of the undisputed leadership our company holds today worldwide in the premium “Mobile SuperSpectral and Multispectral Imaging” field.
A Signature on the Technology of the Future
2013
Smartphone Face Photographing System v.1
The Perfect Harmony of Ergonomics and Technology
The v1 system offered ease of use and ergonomics that were difficult to imagine with the technology of its time:
- Unique Ergonomics and Wireless Freedom: Unlike fixed systems, the v.1 system, with its lightweight body that could be held in one hand, gave specialists the freedom to move 360 degrees around the patient. This was one of the world’s first mobile stabilization solutions enabling “before-after” photographs in aesthetic surgery and dermatology to be taken each time with the same angle and lighting.
- Advanced Lighting and Optical Integration: In those years, when the flash capacity of smartphones was insufficient for clinical imaging, ForenScope integrated its patented “ring-type” lighting system. This provided homogeneous light quality that was shadow-free and revealed tissue details down to the finest level.
- Digital Archiving and Mobile Analysis: The high-resolution facial photographs captured could be transferred directly to cloud systems or clinical management software. This feature allowed physicians to make instant visual presentations to their patients via iPad or phone, digitalizing patient-physician communication.
A Global Industry Awareness: The First Mobile Face Analysis Platform
Until 2013, smartphones were focused on personal use; with the system developed by ForenScope, the smartphone / tablet-based v.1 system could photograph the face and provide standards suitable for scientific data generation through the correct lighting angle and fixed focus distance.
The Legacy of Innovation
v.1, one of the “first mobile ancestors” of ForenScope’s AI-supported facial analysis systems used today by aesthetic and dermatology clinics worldwide, is one of the most concrete achievements of our brand’s vision of “combining mobility with science”.
2014
2014-1
The World's First Mobile Multispectral Smartphone v1
In the first quarter of 2014, we introduced as ForenScope, the world’s first fully integrated mobile multispectral smartphone system. This revolutionary device, whose foundations were laid in 2012 and which fit in the palm of the hand, became the first compact engineering example enabling doctors and field specialists to obtain laboratory-quality images.
Modular Design and Replaceable Optical Technology
1- Replaceable Light Modules:
For the first time in the world, a smartphone accessory allowed the user to replace the light source with Narrow Band light groups at different wavelengths as a plug-and-play module. In this way, dermatologists and forensic experts gained the freedom to examine with a single device at different wavelengths (UV365, UV395, Polarized and Non-Polarized White Light, NarrowBand Blue Light, Cyan and Green Light, Amber and Red Light, etc.). The rechargeable Li-Ion battery powering these lights was integrated into the main body, which also served as the phone case.
2- Movable Lens:
3- Movable Filter Wheel
2014-2
The World's First Mobile Multispectral Smartphone Colposcope v.1
In the second quarter of 2014, we introduced the world’s first mobile multispectral smartphone colposcope. This first system, which combined the high-resolution cameras of smartphones with multispectral and polarized light power, became a mobile solution for cervical cancer screening.
2014-3
The World's First Mobile MultiSpectral Forensic Smartphone v.1
(Forensic/Crime Scene)
2014-4
The World's First Mobile MultiSpectral Smartphone for Dental Imaging v.1
2016
2016-1
The World's First Mobile MultiSpectral Forensic Imaging Tablet v.1
ForenScope launched the world’s first Mobile MultiSpectral Forensic Imaging Tablet with an integrated 13MP UV/VIS/IR camera (330–1080 nm ±20 nm). Running on the Android operating system, this innovative system, with Macro and Micro lenses offering high performance at different distances and Narrow Bandpass and Long Pass filters specially developed for forensic imaging, was designed entirely by the ForenScope R&D team and began serial production following two years of research and development .
Thanks to this device, infrared-based searches for latent blood on surfaces with multicolour and dark backgrounds, ultraviolet- and visible-based searches for body fluids such as semen, urine, and saliva, and close-distance high-clarity UV/VIS/IR photography of powder and chemical fingerprint applications became possible with a single mobile device.
2016-2
4K Latent Fingerprint Detection Device
In the second quarter of 2016, ForenScope introduced the world’s first Mobile 4K Latent Fingerprint Detection Tablet with an integrated 16.3MP Deep UV (254nm UVC–UVB–UVA) / VIS / Infrared camera sensor (200–1100 nm ±20 nm).
This first-of-its-kind, advanced-technology device had built-in software based on the Windows operating system.
Equipped with technologies far beyond its time, this system consisted of an integrated optical lens with high UV transmission produced by ForenScope, a filter set made up of four filter wheels containing 26 professional Band Pass filters, a plug-and-play Ring Light with 254nm UVC, UVA in the 340–370nm range, White, Blue, Cyan, Green, Red and Infrared light groups, and an aluminum darkroom that enabled calibrated images to be captured from a standard distance while eliminating radiation leakage and preventing 254nm UVC light from harming the user. The 4K device also enabled latent fingerprints found on challenging surfaces such as walls, thermal paper, screens, TVs, wood, and similar materials to be imaged and recorded in 4K high resolution, with direct AFIS integration, allowing identification in less than 4 minutes.
2016-3
MultiSpectral Contactless Latent Fingerprint Detection Device
Designed with advanced engineering calculations and using only multispectral light optical technology, it could image fingerprints especially on reflective flat or slightly curved, complex multicoloured, or single-colour surfaces. Recording in RAW format at 24 megapixels quality, this system guaranteed the reliability of forensic processes by preserving 100% evidence integrity.
The world’s first Mobile Multispectral Contactless Fingerprint Detection system, capable of obtaining contactless and non-destructive images within seconds without touching the surface at all, offered the user a fast, consistent, and repeatable examination process. In addition, because the device did not cause any damage to the surface or DNA, it allowed secondary methods to be applied after imaging. The device is still the only portable contactless Fingerprint Detection device capable of imaging in 4 bands with the most advanced technology.
2017
Optical Zoom MultiSpectral Laboratory Detection System (MLDS) V.1
Optical Precision and Spectral Power in Laboratory Examinations
Existing systems allowed the examination of a low-resolution (HD or lower) live image from a fixed distance by using digital magnification. This caused pixelation and loss of detail in live evidence imaging. When compared with today, the magnitude of the possibility of missing evidence is alarming. With MLDS V.1, ForenScope broke this technical barrier by integrating a 2.3MP sensor, Full HD (1920×1080) high-resolution 1080p imaging, and true optical zoom technology into the laboratory environment for the first time.
Unlike competitors of its era, this system had an advanced optical architecture capable of seamless transition from wide angle to micro details without changing cameras. MLDS V.1, which brought UV (Ultraviolet), VIS (Visible Light), and IR (Infrared) spectra together in a single center, became the first integrated solution offering up to 320x “lossless magnification” without compromising image quality in the detection of micro evidence such as biological fluids, gunshot residues, erased documents, and fibers. In 2017, with this device, ForenScope shortened examination times in laboratories while maximizing the accuracy rate in evidence detection.
2018
The World's First Fully Automatic Forensic Medical Polarized Multispectral Colposcope V.1 System
Transition from Gynecological Routine to Forensic Certainty
Until 2018, colposcopes used in healthcare institutions were generally standard optical devices designed for cervical cancer screening, offering only white light and a green filter. These traditional systems concealed subcutaneous trauma because of the “glare” problem caused by mucosa and body fluids, leading to evidence loss in forensic cases. With the World’s First Fully Automatic Forensic Medical Polarized Multispectral Colposcope V1 System, ForenScope eliminated these limitations.
This system completely eliminated reflections on wet tissue with special polarized light technology, enabling physicians to see tissue integrity and deep trauma (bruising, ecchymosis) in the clearest possible form. While competitors could perform only superficial imaging, ForenScope’s V1 system, thanks to its Multispectral (UV/VIS/IR) illumination capability, made old and new body traumas, biological fluids, and lesions that could not be seen with the naked eye detectable within seconds. With its fully automatic motorized control system, it standardized focusing and light settings, giving forensic medicine specialists and gynecologists the power to collect court-standard evidence free from subjective errors.
2019
The World's First Fully Automatic Forensic Medical MultiSpectral Colposcope V.2 System
Transition from Gynecological Routine to Forensic Certainty
2019: The Transition in Forensic Medicine from “Subjective Observation” to “Objective Data”
With the V1 system, ForenScope fully automated this process and removed human error from the equation.
Market Superiority in 2019
Why Did “V1 Full Automatic” Become a Global Standard?
The three core technological pillars that distinguished this system from the best devices of its time are as follows:
- Fully Automatic Motorized System: While competitors lost time with manual focusing, ForenScope V1 achieved the sharpest focus with a single touch and automatically adjusted light intensity. This allowed the physician to focus on the patient and the case, not on the device.
- The Power of Multispectral Vision: In 2019, while 95% of the devices on the market offered only white light and a classic green filter, ForenScope integrated UV (Ultraviolet) and IR (Infrared) wavelengths into gynecological examination. This made old wounds, biological fluids, and hidden subcutaneous traumas that could never be seen with the naked eye or a standard colposcope “visible”.
- Digital Archiving and Forensic Security: The system automatically recorded the obtained 4K-quality images into a digital database with high-security protocols. For 2019, this was a milestone in storing evidence to be submitted to courts in a tamper-proof and unchangeable format.
2020
2020 - 1
4K Compact Latent Fingerprint Detection System
2020 - 2
Mobile MultiSpectral Forensic Tablet V2
After the first tablet that transformed the industry in 2016, ForenScope raised the bar to an unreachable level in 2020 with the Mobile Multispectral Forensic Tablet V2. While other forensic tablets of the period generally focused only on certain wavelengths or required external lens kits, the V2 version perfected the “all-in-one” concept with improved UV-VIS-IR spectral sensitivity and strengthened processor infrastructure. Capable of analyzing a wide range of evidence, from biological fluids and gunshot residues to erased documents and bone fragments, with a single device, V2, with its increased screen brightness, long battery life, and optimized software, ensured that forensic specialists were prepared for any scenario they might encounter in the field.
2020 - 3
Mobile Multispectral Contactless Latent Fingerprint Detection System
Traditional fingerprint collection methods (powdering, brushing) carry the risk of damaging DNA evidence or destroying the fingerprint. Launched in 2020, the Mobile Multispectral Contactless Latent Fingerprint Detection System is a revolutionary solution that eliminated this risk. While competitors generally needed large, fixed laboratory devices (RUVIS, etc.) to perform this process, ForenScope transformed this technology into a mobile and contactless structure. By using only light and optical technology, without touching the surface at all, this system imaged fingerprints on especially glossy, curved, or multicoloured complex backgrounds in 4K quality and guaranteed the reliability of forensic processes by preserving 100% evidence integrity.
2021
2021 - 1
CSI & PATROL Smartphone System
While global competitors of the period offered only amateur solutions such as simple “clip-on macro lenses” or external flashlight filters to include smartphones in the forensic process, ForenScope introduced the world’s first integrated smartphone system combining the phone’s processing power with a professional optical and multispectral light body. This innovation enabled patrol teams, in the first minutes after arriving at the crime scene, to detect biological fluids, latent fingerprints, and gunshot residues with laboratory-level sensitivity without the need for a specialist. This technology, capable of instantly transferring data to the central laboratory, transformed the first response period known as the “golden hours” into a digital network and minimized Response Time in forensic medicine.
2021 - 2
SAFE & SAFE PRO Smartphone System
2022
2022 - 1
DocEx: The World's Most Advanced Portable MultiSpectral Comparison Tablet
Until 2022, Video Spectral Comparison (VSC) systems used to detect forgery in valuable documents such as passports, IDs, and banknotes consisted of bulky boxes fixed only to laboratory benches. With DocEx, ForenScope fit this massive technology into the world’s most advanced portable tablet. While global competitors were still conducting examinations at border gates or laboratories with wired and heavy systems, DocEx became the first device capable of analyzing micro-differences between infrared (IR) and ultraviolet (UV) spectra within seconds, in the field and in a mobile format. This permanently changed speed and mobility in the fight against forgery.
2022 - 2
The World's First Fully Automatic Forensic Smart Tablet
The greatest risk in forensic imaging is that the user may miss evidence by incorrectly setting the light or focus. The World’s First Fully Automatic Forensic Smart Tablet, introduced in 2022, was developed to eliminate this risk. While other tablets on the market still remained nothing more than “smart-looking” cameras requiring manual adjustment, this system made light spectra, filter changes, and focusing processes completely automatic (Full Automatic). As a result, even the most inexperienced user gained the ability to image the most complex evidence (biological fluids, fibers, fingerprints) with the precision of a professional forensic specialist.
2022 - 3
The World's First and Only Portable 48MP SuperSpectral Imaging System
In the third quarter of 2022, ForenScope launched a “resolution revolution” in the world of forensic imaging. At that time, similar spectral devices in the global market generally used low-resolution sensors between 2MP and 5MP; ForenScope introduced the World’s First and Only Portable 48MP SuperSpectral Imaging System. This enormous resolution difference made it possible not only to detect evidence, but also to zoom into that evidence at massive ratios without pixelation. Presenting evidence in the invisible spectrum with 48-megapixel clarity carried the accuracy of forensic reports to an indisputable level.
2022 - 4
t-ZOOM+ DNA: Imaging from 6 Meters to 600 Microns
2023
2023 - 1
Contactless LITE: The World's First 100% Contactless Fingerprint Detection System
In forensic fieldwork in 2023, the greatest concern was the risk of damaging existing DNA samples while searching for fingerprints. Contactless LITE is the world’s first portable system designed to eliminate this risk and operate 100% contactlessly. While competitors of the period were still dependent on brush and powdering methods or attempting to offer bulky “contactless” devices, Contactless LITE, with its palm-sized structure, made latent fingerprints visible within seconds without touching the surface, using only special light technology. This technology enabled first responders at crime scenes to collect laboratory-level data without compromising evidence integrity.
2023 - 2
8K Latent Fingerprint Detection Windows Tablet
2023 - 3
CSI PRO 2
48MP Handheld Terminal System
In 2023, ForenScope carried its smartphone-based forensic systems to the next level with CSI PRO 2. Combining a 48MP ultra-high-resolution sensor with special forensic lenses and multispectral light sources, this system became the most capable mobile forensic device in the world. While competing “mobile” solutions of the period were generally limited to low-pixel sensors, CSI PRO 2 combined the convenience of a smartphone with the optical power of a professional multispectral laboratory device. The level of detail offered by 48 megapixels provided unmatched evidentiary power in every scenario, from the analysis of a small fiber to a large bloodstain.
2023 - 4
CONTACTLESS LAB ULTRA:
100% Contactless Fingerprint Laboratory Detection System
2024
8K Latent Fingerprint Detection Android Tablet
Technological Superiority and Functionality
- Offering massive data power of 7680×4320 pixels, this device delivers “Level 3” (pore-level) details in fingerprint analysis with crystal clarity. By detecting micro-level characteristic features, it carries the reliability of the evidence before the court to the highest level.
- Uninterrupted Speed with the Android Ecosystem: Unlike traditional, slow-starting, and complex operating systems, this new Android-based architecture enables the device to be ready for duty within seconds. Thanks to optimized battery usage and a fluid interface, field specialists can work with high performance without interruption even under the most challenging conditions.
- Non-Destructive (Contactless) Analysis: It makes latent traces visible only through advanced optics and light power, without any chemical or physical intervention on the evidence on the surface. In this way, DNA integrity is preserved 100%.
A Global Industry Awareness: The First Mobile Face Analysis Platform
The key elements that distinguish this device from existing solutions on the market make it not only a technological tool but also a strategic investment:
- Resolution Leadership: While many systems globally still remained at the 4K resolution limit in 2024, ForenScope’s 8K technology offers forensic medicine specialists unique analysis capability by providing 4 times more detail than its competitors.
- Freedom from Bulky Structures: The general approach in the industry is to offer the camera, external light sources, and data processing unit as separate components. ForenScope, however, has combined all this laboratory equipment in an elegant and compact tablet body with the “All-in-One” concept.
- Minimization of Error Margin: AI-supported image enhancement algorithms automatically balance adverse factors such as insufficient field lighting or surface complexity, enabling results free from human error to be produced.
SAFE PRO 2
Portable Multispectral Power for Forensic Medical Examination
Pocket Power
The device is used for detecting evidence invisible to the naked eye: it highlights body fluids, fingerprints, and fibers with spot lights, and reveals footprints and shoe impressions with horizontal oblique lights. In general, this system enables integrated and multifunctional imaging.
In addition, the device’s built-in high-capacity lithium battery supports long-term and uninterrupted operation during crime scene investigations.
t-65 ALS 2
The device is used for detecting evidence invisible to the naked eye: it highlights body fluids, fingerprints, and fibers with spot lights, and reveals footprints and shoe impressions with horizontal oblique lights. In general, this system enables integrated and multifunctional imaging.
In addition, the device’s built-in high-capacity lithium battery supports long-term and uninterrupted operation during crime scene investigations.
2025
SAFE ULTRA System
SuperSpectral Precision for Forensic Medical Examination
SuperSpectral Imaging System
2026
SuperSpectral SAFE
SuperSpectral Imaging for Forensic Medical Examinations
SuperSpectral FORCE
Developed for Crime Scene and Laboratory Analyses
SuperSpectral CORE
