✨Below is a list of the new functionalities and improvements in 3D Transplanner:
🔷 Unified Visualization Interface - Hair Simulation and more
We've streamlined the user interface to enhance efficiency during patient consultations.
🔹Integrated Hair Modification Tools: Hair modification features are now directly accessible within the main simulator view/toolbox.
To simplify user experience, we have completely removed the Visualize section, ensuring that all necessary tools are available in one place without switching between sections.
🔹Haircut: This allows you to choose one of 3 different hairstyles. You can adjust them according to customer preference or see how the type of cutting affects the coverage of the donor areas.
🔹Length: Adjusting the length lets you see how hair grows or shrinks. You can see how different lengths impact density and coverage.
🔹Colour: Match the simulation color to the client's natural hair color shade
More changes in the toolbox:
🔹Clearer Button Labels: We have added descriptions to buttons to make it easier to understand what each tool does, reducing confusion and improving usability.
⚠️ Bald Option Adjustment: The previous Bald button has been removed. Now, if you set the Length to zero, the model will automatically become bald, making the process more intuitive.
🔷 Hair Simulation - Shadow improvement
The appearance of hair shadows has been improved to be more realistic. The current simulation provides significantly better shadow rendering, enhancing the perception of coverage.
🔷 Future Hair Loss Simulation
We've improved our hair loss projection system to provide a more realistic and dynamic representation of hair loss progression over time.
🔹Expanded Coverage: The simulation now includes all relevant areas, allowing for a more comprehensive and customizable prediction of hair loss progression. We removed the limitation that restricted the simulation to the temporal recession
🔹More Precise Transplant Visualization: The system differentiates between androgen-sensitive hairs (assuming 100% from trichoscopy) and transplanted hairs. This enhancement ensures a more accurate representation of post-transplant hair retention.
🔹Better Accuracy Without a Scan: You now have the option to manually set the average hair density without the need for a photo.
🔷 AI/RAW Toggle – Allows easy switching in case of mistakes
After completing head scans, you now have the flexibility to switch between AI-derived models and RAW scans, even after the scan is finished (available in the "Scan 3D" section).
🔹 AI-Derived Shape – Recommended for patients with long hair, where AI processes and refines the scan for better shape accuracy.
🔹 RAW Scan – Ideal for patients with short hair, providing an unprocessed, direct representation of the scan.
No Need to Rescan: Previously, switching between these modes required a full rescan. Now, you can change the visualization afterward without redoing the entire scanning process, making workflow adjustments seamless and efficient.
⚠️ Important
Even if most of the head is shaved, but there is a section with long hair, you should still select the AI-Derived Shape mode to ensure proper model generation.
🔷 Report Generation Fix – Resolved issues with large numbers of images
We have enhanced the report generation process, allowing for smoother and more reliable creation of reports, even when dealing with a large number of images. Now, you can generate comprehensive reports without limitations on the number of images included.
🔷 Inactive Area Layout – Updated design for better clarity
To improve clarity and user experience, the design of inactive areas within the simulator has been updated and refined. Inactive areas are now easier to distinguish, making navigation more intuitive. The updated layout helps users better understand the areas being worked on within the simulator.
🔷 General Optimization – Smoother model rotation
We have optimized the rendering performance to ensure a smoother and more responsive model rotation experience. Now, navigating and examining the 3D model is significantly faster, reducing lag and improving real-time interaction.