Company patents

TRINAMIX GMBH

TRINAMIX GMBH's patent strategy reveals a strong and sustained focus on Computer Vision, which constitutes 33.5% of its portfolio and saw remarkable growth of +433.3% in 2024 and +93.8% in 2025, alongside Image Processing (27.3% of portfolio) with a +600.0% YoY increase in 2024. While there's an emerging focus on Computer Security, which experienced a significant +650.0% YoY growth in 2025, the company appears to be shifting away from Photovoltaic Cells (Legacy CPC) and Medical Diagnostics & Surgery, with both categories showing a -100.0% decline in patenting activity so far in 2026.

Patent Trend by Technology Area

Yearly patent publications since 2023

Product themes

Product-level themes inferred from filings since 2023, with category chips showing where each theme appears. Select a theme to filter the patents below.

161 US filings (since 2023) · 11 categories · 17 themes

Spectroscopic Material & Process Analysis

Techniques and apparatus utilizing various spectroscopy methods (e.g., Raman, NIRS, photometric, interferometric) for identifying substances, measuring concentrations, or monitoring chemical and physical processes in industrial, environmental, or laboratory settings.

Photometry / Spectrometry
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38since 2023
+41.7%YoY
Advanced Optical Sensor Components

Innovations in the physical design, materials, fabrication, or packaging of photodetectors and optical sensor elements, including thermoelectric, NIR-compliant, and self-mixing interference types, to improve performance or integration.

Photometry / Spectrometry
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29since 2023
0.0%YoY
Multi-spectral & Hyperspectral Imaging

Systems and methods for acquiring and analyzing image data across multiple discrete spectral bands or a continuous spectrum, often for material characterization, environmental monitoring, or remote sensing applications.

Photometry / Spectrometry
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23since 2023
+12.5%YoY
Vision-Based Object & Pose Estimationfiltered

Methods and apparatus for detecting objects and determining their three-dimensional position and orientation (pose) using imagery or point cloud data, often for navigation, surveying, or environmental understanding.

Computer Vision
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22since 2023
-40.0%YoY
Remote Tracking and Ranging

Technologies for non-contact measurement of distance, position, or 3D properties of a target object, often involving active emission and detection of light or radio frequency waves, including target tracking.

Length / Distance Measurement
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19since 2023
-63.6%YoY
Access Control & Identity Management

Systems and methods for authenticating users, devices, or applications, authorizing their access to resources based on policies, and managing digital identities across various platforms.

Computer Security
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17since 2023
+500.0%YoY
Optical 3D Surface Metrology

Techniques and systems for measuring three-dimensional shapes, depths, or surface profiles using optical principles, including diffraction, interferometry, structured light, and imaging.

Length / Distance Measurement
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14since 2023
-50.0%YoY
Sensor-based Environment Perception

Techniques and hardware for autonomous systems to gather and interpret data about their surroundings, including obstacle detection, object recognition, and depth estimation, to inform control decisions.

Computer Vision
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13since 2023
0.0%YoY
Thermal & Infrared Sensing Applications

Use of thermal and infrared sensors for non-contact temperature measurement, occupancy detection, structural health monitoring, fire/hazard detection, and process control in diverse industrial, environmental, and security applications.

Photometry / Spectrometry
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9since 2023
+150.0%YoY
Multi-Sensor Imaging & Synthesis

Systems that combine data from multiple camera sensors or capture multiple images from different perspectives or qualities, often involving image processing techniques like synthesis to create enhanced or comprehensive views.

Pictorial / Video Communications
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8since 2023
n/a
AI/ML for Optical Data Analysis

Application of machine learning models and algorithms to interpret complex optical sensor data for tasks such as object classification, anomaly detection, health monitoring, or environmental state determination, enhancing automation and decision-making.

Photometry / Spectrometry
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7since 2023
+200.0%YoY
AI/ML for Cryptographic Security

Applying artificial intelligence and machine learning techniques to enhance cryptographic systems, such as generating encryption models, improving zero-trust architectures, or enabling privacy-preserving computations like federated learning.

Computer Security
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2since 2023
new
Wearable Physiological Sensing

Development of devices and methods for non-invasive or minimally invasive collection and analysis of physiological data, often from wearable sensors, to monitor health, activity, or specific conditions.

Medical Diagnostics & Surgery
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2since 2023
new
Video Quality & Encoding Optimization

Methods and apparatus for improving the visual fidelity, resolution, or compression efficiency of video signals, often through advanced processing, up-scaling, or neural network-based filters.

Computer VisionPictorial / Video Communications
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2since 2023
0.0%YoY
Specialized Neural Network Architectures

Development and optimization of novel neural network layers or architectures specifically designed to improve performance or efficiency for computer vision tasks.

Computer Vision
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1since 2023
new
AI for Medical Diagnostics

Utilizing machine learning, particularly deep learning, to analyze medical data such as images, sensor readings, or physiological signals for disease prediction, diagnosis, or treatment assessment.

Image ProcessingMedical Diagnostics & Surgery
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1since 2023
new
Advanced Biomarker Detection Assays

Methods and compositions for identifying, quantifying, or characterizing specific biological molecules (e.g., nucleic acids, proteins, metabolites, antibodies) or microbial species, often for diagnostic, prognostic, or quality control applications.

Material & Chemical Analysis
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1since 2023
n/a

Patents

Page 3 of 3
US 11067692 B2GRANTED
G01S17/46

Detector for determining a position of at least one object

Filed:2018-06-25Pub:2021-07-20
Applicant:trinamiX GmbH

A method for adjusting a detector ( 110 ) for determining a position of at least one object ( 112 ) within a range of measurement ( 114 ) is disclosed. The detector ( 110 ) comprises at least two longitudinal optical sensors ( 116 ) and at least one transfer device ( 118 ) for imaging the object ( 112 ) into an image plane. The transfer device ( 118 ) has a focal plane. The transfer device ( 118 ) is positioned in between the longitudinal optical sensors ( 116 ) and the object ( 112 ). Each of the longitudinal optical sensors ( 116 ) has at least one sensor region ( 120 ). Each of the longitudinal optical sensors ( 116 ) is designed to generate at least one longitudinal sensor signal in a manner dependent on an illumination of the respective sensor region ( 120 ) by at least one light beam ( 178 ) propagating from the object ( 112 ) to the detector ( 110 ), wherein the longitudinal sensor signal, given the same total power of the illumination, is dependent on a beam cross-section of the light beam ( 178 ) in the sensor region ( 120 ). The detector ( 110 ) further comprises at least one evaluation device ( 124 ). The method comprises the following steps: (i) subsequently moving the object ( 112 ) longitudinally to at least two different calibration positions ( 134, 136 ) having at least two different longitudinal coordinates within the range of measurement ( 114 ); (ii) recording, for each of the calibration positions ( 134, 136 ), at least one first longitudinal sensor signal generated by a first longitudinal optical sensor ( 126 ) and at least one second longitudinal sensor signal generated by a second longitudinal optical sensor ( 128 ); (iii) forming, for each of the calibration positions ( 134, 126 ), at least one calibration signal using the first and second longitudinal sensor signals; (iv) generating a calibration function using the calibration signals, the calibration function defining a relationship between the longitudinal coordinate of the object ( 112 ) and the first and second longitudinal sensor signals.

US 20210088664 A1APPLICATION
G01S17/46

DETECTOR FOR DETERMINING A POSITION OF AT LEAST ONE OBJECT

Filed:2018-06-25Pub:2021-03-25
Applicant:trinamiX GmbH

A method for adjusting a detector ( 110 ) for determining a position of at least one object ( 112 ) within a range of measurement ( 114 ) is disclosed. The detector ( 110 ) comprises at least two longitudinal optical sensors ( 116 ) and at least one transfer device ( 118 ) for imaging the object ( 112 ) into an image plane. The transfer device ( 118 ) has a focal plane. The transfer device ( 118 ) is positioned in between the longitudinal optical sensors ( 116 ) and the object ( 112 ). Each of the longitudinal optical sensors ( 116 ) has at least one sensor region ( 120 ). Each of the longitudinal optical sensors ( 116 ) is designed to generate at least one longitudinal sensor signal in a manner dependent on an illumination of the respective sensor region ( 120 ) by at least one light beam ( 178 ) propagating from the object ( 112 ) to the detector ( 110 ), wherein the longitudinal sensor signal, given the same total power of the illumination, is dependent on a beam cross-section of the light beam ( 178 ) in the sensor region ( 120 ). The detector ( 110 ) further comprises at least one evaluation device ( 124 ). The method comprises the following steps: (i) subsequently moving the object ( 112 ) longitudinally to at least two different calibration positions ( 134, 136 ) having at least two different longitudinal coordinates within the range of measurement ( 114 ); (ii) recording, for each of the calibration positions ( 134, 136 ), at least one first longitudinal sensor signal generated by a first longitudinal optical sensor ( 126 ) and at least one second longitudinal sensor signal generated by a second longitudinal optical sensor ( 128 ); (iii) forming, for each of the calibration positions ( 134, 126 ), at least one calibration signal using the first and second longitudinal sensor signals; (iv) generating a calibration function using the calibration signals, the calibration function defining a relationship between the longitudinal coordinate of the object ( 112 ) and the first and second longitudinal sensor signals.