Phoenix - Your AI AssistantDynamic Simulation
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- Proposals: 3
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- #4351650
- OPPORTUNITY
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have already sent a proposal. Description
Experience Level: Entry
I need dynamic evacuation simulation on the following requirements
Museum 1 G+4 with basement five rooms in each floor and 300 people and 50 up to 60 people in each floor
Museum 2 G+2 with basement five rooms in each floor and 300 people and 50 up to 60 people in each floor
Museum 3 G+5 with basement five rooms in each floor and 300 people and 50 up to 60 people in each floor
Museum 4 G+3 with basement five rooms in each floor and300 people and 50 up to 60 people in each floor
1. Evacuation Performance Metrics
• Evacuation Time: Total time taken for all tourists to evacuate safely.
• Evacuation Success Rate: Percentage of tourists who successfully evacuate within a safe timeframe.
• Bottleneck Identification: Detection of congestion points during evacuation.
• Route Optimization: Efficiency of escape routes suggested by the federated DT system.
• Visitor Flow Optimization: Reduction in overcrowding and improved movement efficiency (consider kids, elders, disable visitors and normal visitors).
• Communication Overhead: Bandwidth and latency in data exchange among buildings.
• Adaptive Decision-Making: Ability to adjust evacuation strategies based on dynamic conditions.
• Decision-Making Speed: Measure the time taken to suggest an evacuation plan.
• Data Privacy & Security: During communication of each building
Museum Staff
Attributes: ID, position, emergency response capability.
Behaviour: Guide visitors and control emergency pathways.
For clear examples
1. Number of Museums: 4 (A, B, C, D)
2. Number of Visitors per Museum: Varies (e.g., A: 500, B: 700, C: 600, D: 300)
3. Emergency Type: Fire in Museum A
Initial Evacuation Plan:
1. Museum A evacuates high-risk areas first.
2. Museums B & C receive overflow visitors.
3. Museum D sends staff reinforcements to B & C.
4. Communication Overhead Metrics:
5. Latency in decision updates (e.g., max 2 seconds).
6. Bandwidth usage for real-time simulation.
7. Security level (end-to-end encryption for museum data sharing).
this is just as an example
Output dynamic evacuation simulation +Analysis+ well-organized report
Museum 1 G+4 with basement five rooms in each floor and 300 people and 50 up to 60 people in each floor
Museum 2 G+2 with basement five rooms in each floor and 300 people and 50 up to 60 people in each floor
Museum 3 G+5 with basement five rooms in each floor and 300 people and 50 up to 60 people in each floor
Museum 4 G+3 with basement five rooms in each floor and300 people and 50 up to 60 people in each floor
1. Evacuation Performance Metrics
• Evacuation Time: Total time taken for all tourists to evacuate safely.
• Evacuation Success Rate: Percentage of tourists who successfully evacuate within a safe timeframe.
• Bottleneck Identification: Detection of congestion points during evacuation.
• Route Optimization: Efficiency of escape routes suggested by the federated DT system.
• Visitor Flow Optimization: Reduction in overcrowding and improved movement efficiency (consider kids, elders, disable visitors and normal visitors).
• Communication Overhead: Bandwidth and latency in data exchange among buildings.
• Adaptive Decision-Making: Ability to adjust evacuation strategies based on dynamic conditions.
• Decision-Making Speed: Measure the time taken to suggest an evacuation plan.
• Data Privacy & Security: During communication of each building
Museum Staff
Attributes: ID, position, emergency response capability.
Behaviour: Guide visitors and control emergency pathways.
For clear examples
1. Number of Museums: 4 (A, B, C, D)
2. Number of Visitors per Museum: Varies (e.g., A: 500, B: 700, C: 600, D: 300)
3. Emergency Type: Fire in Museum A
Initial Evacuation Plan:
1. Museum A evacuates high-risk areas first.
2. Museums B & C receive overflow visitors.
3. Museum D sends staff reinforcements to B & C.
4. Communication Overhead Metrics:
5. Latency in decision updates (e.g., max 2 seconds).
6. Bandwidth usage for real-time simulation.
7. Security level (end-to-end encryption for museum data sharing).
this is just as an example
Output dynamic evacuation simulation +Analysis+ well-organized report
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