Robotics patent applications on 7th August 2025
Robotics Patent Applications on 7th August 2025
Executive Summary
On 7th August 2025, 114 patent applications related to Robotics were published, representing 1.7% of all patent applications for the day. This moderate level of activity shows Robotics is gaining significant attention from innovators.
Market Analysis
Leading Organizations
The top organizations driving Robotics innovation include:
Template:Newsletter signup box
- Rockwell Automation Technologies Inc: 4 applications (3.5% of Robotics patents)
- The Boeing Company: 3 applications (2.6% of Robotics patents)
- Covidien LP: 2 applications (1.8% of Robotics patents)
- Equashield Medical Ltd: 2 applications (1.8% of Robotics patents)
- The Alfred E Mann Foundation for Scientific Research: 2 applications (1.8% of Robotics patents)
These 5 organizations account for 13 applications (11.4% of all Robotics patents), indicating a diverse and competitive landscape.
Technology Deep Dive
Core Innovation Areas
Patent applications in Robotics encompass several key innovation areas:
- Robotics: Core technology area
- Robotic: Core technology area
- Automation: Core technology area
- Industrial Robot: Core technology area
Technical Classification Analysis
The most active CPC classifications in Robotics include:
- B25J9/163 ({learning, adaptive, model based, rule based expert control}): 12 applications (10.5%)
- B25J9/1697 ({Vision controlled systems}): 12 applications (10.5%)
- B25J9/1664 ({characterised by motion, path, trajectory planning}): 7 applications (6.1%)
- G05D2107/70 (SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES): 7 applications (6.1%)
- B25J9/161 ({Hardware, e.g. neural networks, fuzzy logic, interfaces, processor}): 6 applications (5.3%)
- G06T7/70 (Determining position or orientation of objects or cameras (camera calibration): 4 applications (3.5%)
- A61B34/25 ({User interfaces for surgical systems}): 4 applications (3.5%)
- B25J19/023 ({including video camera means}): 4 applications (3.5%)
- B25J9/1612 ({characterised by the hand, wrist, grip control}): 4 applications (3.5%)
- B25J9/1666 ({Avoiding collision or forbidden zones}): 4 applications (3.5%)
Global Innovation Landscape
Innovation in Robotics spans multiple countries:
- US: 226 inventors (57.1%)
- CN: 43 inventors (10.9%)
- JP: 34 inventors (8.6%)
- DE: 15 inventors (3.8%)
- GB: 9 inventors (2.3%)
- TW: 8 inventors (2.0%)
- CA: 7 inventors (1.8%)
- IL: 7 inventors (1.8%)
- CH: 7 inventors (1.8%)
- SE: 6 inventors (1.5%)
The US accounts for 57.1% of inventors in Robotics, showing significant but not dominant innovation activity.
Industry Collaborations
Notable collaborations in Robotics include:
- Siemens Medical Solutions USA Inc × King'S College London: 1 joint applications
- THE REGENTS OF THE UNIVERSITY OF CALIFORNIA × Suitx Inc: 1 joint applications
- Futronics (NA) Corporation × UBTECH ROBOTICS CORP LTD: 1 joint applications
- The Boeing Company × University of Washington: 1 joint applications
These collaborations represent 4 joint applications, indicating emerging collaboration trends in Robotics.
Leading Inventors
Key inventors driving Robotics innovation:
- Eric SHEM-TOV of Ramat Hasharon IL: 2 applications
- Marino KRIHELI of Savion IL: 2 applications
- Boaz SLAV of Haifa IL: 2 applications
- Hitesh Shyamkumar HOTLANI of Santa Clarita CA US: 2 applications
- Kai WU of Ningde CN: 2 applications
- Kevin Y. Low of Pittsburgh PA US: 2 applications
- Chase David of Montgomery TX US: 2 applications
- Hitoshi HASUNUMA of Kobe-shi JP: 2 applications
- Masayuki KAMON of Kobe-shi JP: 2 applications
- Shuonan Dong of Seattle WA US: 2 applications
Recent Patent Applications
Representative Robotics patent applications from 7th August 2025:
20250248344. METHOD AND APPARATUS FOR HIGH-DENSITY INDOOR FARMING
Applicant: 80 Acres Urban Agriculture Inc
Abstract: The present disclosure relates to a module and system for indoor farming. In some embodiments, an indoor farming module includes a container compartment divided into a grow zone and a control zone, wherein a grow zone comprises a chassis with a plurality of horizontal and vertical frame members configured to support a plurality of carts each carrying a tray with a plurality of plants and wherein the control zone includes an air blowing unit integrated so as to direct air between a drop ceiling a...
20250248345. MANAGING STAGES OF GROWTH OF A CROP WITH MICRO-PRECISION VIA AN AGRICULTURAL TREATMENT DELIVERY SYSTEM
Applicant: Verdant Robotics Inc
Abstract: Various embodiments relate generally to computer vision and automation to autonomously identify and deliver for application a treatment to an object among other objects, data science and data analysis, including machine learning, deep learning, and other disciplines of computer-based artificial intelligence to facilitate identification and treatment of objects, and robotics and mobility technologies to navigate a delivery system, more specifically, to an agricultural delivery system configured t...
20250248602. ARTIFICIAL INTELLIGENCE-BASED ROBOTIC SYSTEM FOR PHYSICAL THERAPY
Applicant: Ar & Ns Investment Llc
Abstract: A robotic system for physical therapy includes a stimulus device, a server arrangement with a first artificial intelligence (AI)-based system, and control circuitry. During a training phase, the server arrangement instructs multiple robotic systems to apply various stimuli to test users and collects stimulus-response pairs that identify a stimulus type and a corresponding response level. The system generates a one-stimulus multi-response (OSMR) dataset from the collected data and updates a secon...
20250248676. MEASURING SYSTEM AND METHOD
Applicant: Siemens Healthineers AG
Abstract: For a particularly precise check of travel accuracy, a measuring system is provided for checking and/or calibrating a travel accuracy of a mobile medical device that may be moved over a floor automatically or semiautomatically in a motorized manner. The measuring system includes a flat mat with an underside that may be arranged on the floor, and with an upper side on which indicator patterns that include at least one zero point mark for positioning the medical device and a number of track markin...
20250248684. CONTRASTIVE REINFORCEMENT LEARNING-BASED NAVIGATION IN MEDICAL IMAGING
Applicant: Siemens Medical Solutions USA Inc, King'S College London
Abstract: For movement of medical sensors for medical imaging, an artificial intelligence (AI) is trained using a contrastive reinforcement learning (CRL) framework. Simulation may be used to provide the training data. For training, the sampling for a given input instance in CRL may use trajectories simulated from different patients for better contrast. CRL, with or without the simulation feature and/or the sampling feature, may provide more generalized navigation, such as in interventional or diagnostic ...
Market Implications
Innovation Intensity
With 114 applications in a single day, Robotics demonstrates very high innovation intensity, suggesting rapid technological advancement and strong commercial interest.
Competitive Landscape
Innovation in Robotics spans 95 organizations, showing strong competitive activity and diverse investment in the field.
Technology Outlook
Emerging themes in Robotics patents include: robot, data, that, from, control, suggesting future development in these areas.
The current patent activity level suggests Robotics is in a growth phase with increasing market adoption and investment.
Related Technology Areas
Innovation in Robotics often intersects with other emerging technologies:
- Medical Devices: 491 applications
- Semiconductors: 489 applications
- Cybersecurity: 223 applications
- 5G Technology: 203 applications
- Renewable Energy: 180 applications
- Internet of Things: 160 applications
- Biotechnology: 152 applications
- Generative AI: 152 applications