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Last modified by Tjalling Haije on 2025/09/15 09:25
From version 5.1
edited by Tjalling Haije
on 2025/07/14 08:48
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To version 2.1
edited by Tjalling Haije
on 2025/07/07 11:00
Change comment: There is no comment for this version

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Title
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1 -UC03.2: Wide area assessment (USAR)
1 +UC01.2: Health sensors (USAR)
Parent
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1 -2\. Specification.b\. Use Cases.UC03\.0\: Wide area assessment.WebHome
1 +2\. Specification.b\. Use Cases.WebHome
Content
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1 -**Objective**
2 -[[OB01: Increase effectiveness through exploration, sensing and communication means>>path:#]]
3 -[[OB04: Improve safety by providing overviews and warnings of environment conditions>>path:#]]
1 +=== **Health Sensor – USAR** ===
4 4  
5 -Use RTK-enabled outdoor drones for wide area assessment before and during USAR operations. Drones hover near structures and provide high-resolution video, controlled manually by an operator. Teams and command staff use the footage to support planning, assess hazards, and make routing decisions.
3 +|=**Objective**|=Use health sensors to monitor USAR responders during operations, enabling real-time intervention and mission adjustment.
4 +|**TDP**|TDP3, TDP6, TDP7
5 +|**IDP**|IDP2, IDP4
6 +|**Actors**|Responder, Team Leader, Medical Staff, Safety Officer
7 +|**Pre-Condition**|Wearables calibrated and worn before entering the operational zone.
8 +|**Post-Condition**|Health data processed; alerts triggered; medical decisions informed.
6 6  
7 -**TDP**
8 -TDP1, TDP4, TDP6
9 9  
10 -**IDP**
11 -IDP1, IDP3
12 12  
13 -**Actors**
14 -Drone Operator, USAR Rescuers, Command Center Staff, Camera Analyst (optional)
15 -
16 -**Pre-Condition**
17 -Drone is operational and connected; a need for external visual assessment is identified.
18 -
19 -**Post-Condition**
20 -Hazards and structures externally assessed; situational awareness increased across teams.
21 -
22 22  ----
23 23  
24 24  === **Action Sequence** ===
25 25  
26 -1. **Deployment and Initial Positioning**
27 - a. Command or team lead requests drone support for external area overview.
28 - b. Drone operator launches drone, checks connectivity and RTK accuracy.
29 - c. Live feed is shared with teams and command center.
30 -1. **Initial Area Assessment**
31 - a. Drone hovers and performs a wide pass along the operational area.
32 - b. Camera operator or analyst identifies terrain features and visible hazards.
33 - c. Findings are noted by command staff for initial planning and worksite layout.
34 -1. **Detailed Look Upon Request**
35 - a. A responder team or command staff requests specific inspection (e.g. rooftop stability, exit blockage).
36 - b. Operator manually moves drone and zooms in for closer inspection.
37 - c. Team uses footage for tactical decision-making or confirmation before approach.
38 -1. **Data Sharing and Coordination**
39 - a. Screenshots or annotated video are shared across teams.
40 - b. Visual information is added to digital maps or discussed in team briefings.
41 - c. Drone remains in overwatch or is redirected to the next location.
16 +1. **Sensor Setup and Readiness**
17 + a. Wearables are distributed and calibrated at staging area.
18 + b. Each responder confirms correct placement and pairing.
19 + c. System diagnostics confirm connectivity to C3I and health monitoring software.
20 +1. **Monitoring and Local Alerts**
21 + a. Wearables measure vitals (e.g. heart rate, temp, hydration).
22 + b. Local LED/sound alerts notify responder of rising stress or danger.
23 + c. Non-critical data is logged passively for review.
24 +1. **Remote Monitoring and Escalation**
25 + a. Safety officer observes all live health feeds via dashboard.
26 + b. Alerts for critical thresholds trigger visual/audio warnings.
27 + c. Team leader is notified and confirms next action (pause, replace, extract).
28 +1. **Medical Decision and Evacuation**
29 + a. Medic evaluates responder if thresholds persist.
30 + b. If required, team extracts responder for treatment.
31 + c. Info logged and synced to medical HQ for continuity of care.
32 +1. **Command-Level Operational Adjustment**
33 + a. Based on patterns, team rotations or routes are adjusted.
34 + b. System records trends for debrief and post-mission reporting.
42 42  
43 43  ----
44 44  
45 -=== **Claims (title)** ===
38 +|=**Claims (title)**|=**Function**|=**Effect(s)**|=**Action Sequence Step(s)**
39 +|CL1 Heightened safety in worksite|Vital monitoring, Local alerts|Reduces risks due to unnoticed physical strain|2a, 2b, 3a
40 +|CL2 SA of own status|LED/sound feedback|Empowers self-correction or request for help|2b
41 +|CL3 SA for managers|Live health dashboard|Enables proactive responder care|3a, 3b
42 +|CL4 Better decisions using status data|C3I health data, Escalation protocol|Supports informed team rotation and extraction|4a, 4b, 5a
46 46  
47 -|=Claims (title)|=Function|=Effect(s)|=Action Sequence Step(s)
48 -|CL1 Improved external SA for teams|Live video from hovering drone|EFXX: Situation Awareness improved → Measured with SAGAT or questionnaire.
49 -(Teams operate with up-to-date visuals of surroundings.)|2a, 2b, 3a
50 -|CL2 Safer team movement planning|Visual confirmation of hazards|EFXX: Safety of responders improved → Measured with near-incident reporting or field logs.
51 -(Avoids unstable paths or collapse zones.)|3a, 3b, 3c
52 -|CL3 Increased planning speed|Area scan before deployment|EFXX: Operational tempo improved → Measured with time-to-plan or decision cycle.|2a, 2c, 4b
53 -|CL4 Lower workload for reconnaissance|Drone replaces physical scout|EFXX: Mental workload decreased → Measured with NASA TLX.
54 -(Removes need for physical recon of rooftops or hard-to-access zones.)|2b, 3b
55 -|CL5 Shared SA between field and base|Feed shared across all actors|EFXX: Coordination improved → Measured with mission replay or comms analysis.|1c, 4a, 4b
56 -
57 57