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Read articleAimPosition Optical Tracking Camera
Optical Tracking Camera for Surgical Robot Navigation Systems
AimPosition OP-M631 and OP-M632 are optical positioning camera modules for engineering teams building surgical navigation, surgical robot, and image-guided procedure platforms. The system tracks markers in real time and provides coordinate data for instruments, reference frames, and positioning accessories.
For buyers evaluating Optical positioning systems, the camera offers a practical combination of high-frequency tracking, configurable communication interfaces, and marker support for prototype review, system integration, and procurement comparison. It also supports project teams that need stable tracking with retroreflective markers in controlled navigation environments.
Description
The AimPosition camera is designed for navigation platforms that need stable marker recognition, real-time coordinate output, and a compact camera module that can be evaluated during system design. Its application range includes image-guided surgery, surgical robots, neurosurgery, orthopedic navigation, dental implant guidance, and transcranial magnetic stimulation positioning.
Core Supply Advantages
- Model options support different accuracy and sampling frequency requirements for prototype and production planning.
- Passive reflective and active marker support helps integrators compare fixture design, tool tracking, and reference frame strategies.
- USB 3.0, Ethernet, WiFi, POE, and adaptor options give engineering buyers practical paths for cable routing and host-side testing.
Product Specifications
| Parameter | OP-M631 | OP-M632 |
|---|---|---|
| Accuracy | 0.20 mm RMS | 0.08 mm RMS |
| Sampling frequency | 96 Hz | 300 Hz |
| Tracking range | 1-2.4 m pyramid field range | 1-2.4 m pyramid field range |
| Marker support | Passive reflective markers and active markers | Passive reflective markers and active markers |
| Tool and marker capacity | Up to 50 tools and 200 markers | Up to 50 tools and 200 markers |
| Communication | USB 3.0, Ethernet, WiFi options | USB 3.0, Ethernet, WiFi options |
| Power supply | POE or adaptor support | POE or adaptor support |
| Typical applications | Image-guided surgery, surgical robots, dental implant navigation | Neurosurgery, orthopedics, TMS positioning, high-frequency tracking projects |
Technical Reading for Navigation Buyers
These AIMOOE articles help procurement and engineering teams review camera performance, procedure fit, and comparison factors before moving into sample evaluation.
Key Features of Optical Cameras for Image-Guided Surgery
A focused overview of tracking accuracy, marker recognition, field range, and system response factors that matter in image-guided surgical systems.
Read articleComparing Optical Positioning Cameras Across Navigation Systems
A comparison-oriented reference for teams checking accuracy, sampling frequency, interface choices, and application alignment across camera options.
Read articleVerified Procurement Feedback
Procurement-style feedback based on typical evaluation concerns for optical tracking camera projects.
Five-star rating
"The OP-M632 specification gave our robot engineering team a clear basis for sampling rate, interface, and marker layout discussion before ordering evaluation units."
Navigation Systems Engineer
Germany
Five-star rating
"For our distributor review, the camera range, marker capacity, and interface choices were the most useful points. The product page made the comparison process direct."
Medical Device Sourcing Manager
United Arab Emirates
Five-star rating
"We needed a compact optical tracking camera for a dental navigation project. The support for reflective markers and multiple communication options matched our evaluation checklist."
Clinical Engineering Buyer
Singapore
FAQ for Engineering and Procurement Teams
Use these questions to prepare a more efficient technical discussion with AIMOOE before sample testing or project quotation.
How does the AimPosition optical tracking camera support surgical robot navigation?
The camera tracks passive or active markers in the near-infrared range and outputs three-dimensional coordinate data for tracked tools. For surgical robot projects, this helps the control or navigation software maintain a real-time spatial reference for instruments, reference frames, and patient-side positioning accessories.
What is the difference between OP-M631 and OP-M632 for integration planning?
Both models are optical positioning camera options for navigation systems. OP-M631 is listed with 0.20 mm RMS accuracy and 96 Hz sampling frequency, while OP-M632 is listed with 0.08 mm RMS accuracy and 300 Hz sampling frequency. The selection should be matched to the required tracking volume, refresh rate, marker configuration, and software integration plan.
Can the camera work with retroreflective markers?
Yes. The product information states support for passive reflective markers and active markers. For reflective marker use, the design team should confirm marker geometry, fixture rigidity, surface condition, operating distance, and line-of-sight requirements during sample evaluation.
Which interfaces should an engineering team review before procurement?
The listed communication methods include USB 3.0, Ethernet, and WiFi options, depending on the model. Engineering teams should review host computer compatibility, data rate, cable routing, electrical isolation needs, mounting position, and how the tracking data will be consumed by the navigation or robot control software.
What application areas are suitable for this optical positioning camera?
The product page and site context position the camera for image-guided surgery, surgical robots, neurosurgery, orthopedics, transcranial magnetic stimulation, and dental implant navigation. Exact suitability should be confirmed against the required working distance, marker layout, and project-level validation process.
What should overseas buyers prepare before requesting a quotation?
Buyers should prepare the target application, preferred model, expected tracking volume, marker type, sampling rate needs, interface preference, project quantity, destination region, and any documentation or sample evaluation requirements. This helps the supplier respond with a configuration that matches the real integration environment.
