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2026
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| Online Access: | https://doi.org/10.5281/zenodo.20005167 |
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| author | Pham, Minh Phuong |
| author_facet | Pham, Minh Phuong |
| contents | <p><strong>Project Summary: A0: RESCUE OPS</strong></p> <p><strong>1. Concept & Rationale</strong></p> <p><strong>RESCUE OPS</strong> is a specialized application of the Axis 0 Framework designed to bridge the critical gap in "Golden Hour" emergency response. Traditional CPR often overlooks internal <strong>Biomechanical Pressure</strong>, which can lead to "Backflow"—a phenomenon that accelerates structural cell destruction (measured by the R_age index) and risks cerebral capillary rupture. <span class="Apple-converted-space"> </span></p> <p><strong>2. Core Technological Innovations</strong></p> <p>• <strong>Detection Layer: </strong>Utilizes LiDAR for 3D volumetric scanning to measure tissue impedance and rPPG to monitor intracranial pressure and flow variations via camera. <span class="Apple-converted-space"> </span></p> <p>• <strong>Navigation Layer:</strong> Employs AR Hotspots to visualize pressure centers and a Force Threshold system (Haptic/Visual) to guide the rescuer in applying precise "Penetrating" force. <span class="Apple-converted-space"> </span></p> <p>• <strong>Flow Management: </strong>Coordinates mechanical "Push" (CPR) and "Release" (Pressure Relief) to lower central pressure and optimize Non-Newtonian fluid dynamics within the fascia. <span class="Apple-converted-space"> </span></p> <p><strong>3. Standard Operating Procedure (SOP)</strong></p> <p>1. <strong>Scan:</strong> Identify high-pressure R_age zones using LiDAR. <span class="Apple-converted-space"> </span></p> <p>2. <strong>Open: </strong>Apply pressure to AR-designated points (Shoulder/Neck) to thin fascia fluids and open brain pressure exits. <span class="Apple-converted-space"> </span></p> <p>3. <strong>Relief:</strong> Centrifugal stroking of the limbs to pull pressure away from the central system. <span class="Apple-converted-space"> </span></p> <p>4. <strong>Sync:</strong> Perform heart compressions synchronized with the "Penetrating" force bar to maintain circulation without backflow. <span class="Apple-converted-space"> </span></p> <p><strong>4. Tactical Ecosystem</strong></p> <p>• <strong>Rescue Pulse:</strong> Automated SOS broadcasting via Bluetooth/GPS if the R_{age} index fails to drop or the rescuer shows signs of exhaustion. <span class="Apple-converted-space"> </span></p> <p>• <strong>Digital Twin Log:</strong> Packages all biomechanical data and pressure relief history into a transferable file (QR/NFC) for professional medical personnel. <span class="Apple-converted-space"> </span></p> <p>• <strong>Integrated Engineering:</strong> Applies FEA (Finite Element Analysis) for stress quantification and CFD (Computational Fluid Dynamics) for fascia flow simulation. <span class="Apple-converted-space"> </span></p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_20005167 |
| institution | Zenodo |
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| publishDate | 2026 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Axis 0 - RESCUE OPS: Biomechanical Emergency Ecosystem and Active Intervention Protocols Pham, Minh Phuong <p><strong>Project Summary: A0: RESCUE OPS</strong></p> <p><strong>1. Concept & Rationale</strong></p> <p><strong>RESCUE OPS</strong> is a specialized application of the Axis 0 Framework designed to bridge the critical gap in "Golden Hour" emergency response. Traditional CPR often overlooks internal <strong>Biomechanical Pressure</strong>, which can lead to "Backflow"—a phenomenon that accelerates structural cell destruction (measured by the R_age index) and risks cerebral capillary rupture. <span class="Apple-converted-space"> </span></p> <p><strong>2. Core Technological Innovations</strong></p> <p>• <strong>Detection Layer: </strong>Utilizes LiDAR for 3D volumetric scanning to measure tissue impedance and rPPG to monitor intracranial pressure and flow variations via camera. <span class="Apple-converted-space"> </span></p> <p>• <strong>Navigation Layer:</strong> Employs AR Hotspots to visualize pressure centers and a Force Threshold system (Haptic/Visual) to guide the rescuer in applying precise "Penetrating" force. <span class="Apple-converted-space"> </span></p> <p>• <strong>Flow Management: </strong>Coordinates mechanical "Push" (CPR) and "Release" (Pressure Relief) to lower central pressure and optimize Non-Newtonian fluid dynamics within the fascia. <span class="Apple-converted-space"> </span></p> <p><strong>3. Standard Operating Procedure (SOP)</strong></p> <p>1. <strong>Scan:</strong> Identify high-pressure R_age zones using LiDAR. <span class="Apple-converted-space"> </span></p> <p>2. <strong>Open: </strong>Apply pressure to AR-designated points (Shoulder/Neck) to thin fascia fluids and open brain pressure exits. <span class="Apple-converted-space"> </span></p> <p>3. <strong>Relief:</strong> Centrifugal stroking of the limbs to pull pressure away from the central system. <span class="Apple-converted-space"> </span></p> <p>4. <strong>Sync:</strong> Perform heart compressions synchronized with the "Penetrating" force bar to maintain circulation without backflow. <span class="Apple-converted-space"> </span></p> <p><strong>4. Tactical Ecosystem</strong></p> <p>• <strong>Rescue Pulse:</strong> Automated SOS broadcasting via Bluetooth/GPS if the R_{age} index fails to drop or the rescuer shows signs of exhaustion. <span class="Apple-converted-space"> </span></p> <p>• <strong>Digital Twin Log:</strong> Packages all biomechanical data and pressure relief history into a transferable file (QR/NFC) for professional medical personnel. <span class="Apple-converted-space"> </span></p> <p>• <strong>Integrated Engineering:</strong> Applies FEA (Finite Element Analysis) for stress quantification and CFD (Computational Fluid Dynamics) for fascia flow simulation. <span class="Apple-converted-space"> </span></p> |
| title | Axis 0 - RESCUE OPS: Biomechanical Emergency Ecosystem and Active Intervention Protocols |
| url | https://doi.org/10.5281/zenodo.20005167 |