Level 2 resilience sub-factors supporting network planning and design (network P &D)
| Level 1 resilience sub-factors | Level 2 resilience sub-factors |
|---|---|
| Network – product flow | Design of distribution and logistics network for reach and scalability |
| Design for adequate cold chain infrastructure, capacity and efficiency | |
| Design for manufacturing scalability | |
| Design for mass vaccination scale and reach | |
| Network – financial flow | Modeling and analysis of costs to meet mass vaccination budgets |
| Network – information flow | Use of information systems to track real time data on cold chain temperatures |
| Use of information systems to determine airport pairs for flight scheduling | |
| Network – vaccine recipient flow | Design of vaccination site logistics for speed (queuing) |
| Network – knowledge flow | Identification of vaccine technology types and manufacturing requirements |
| Building of regulatory capacity to meet requirements | |
| Network – skilled worker flow | Determination of number of vaccinators and healthcare workers at mass vaccination sites |
| Network – waste flow | Design of sustainable or circular waste management systems |
| Assessment of waste disposal capacity | |
| Use of real temperature data to control product waste | |
| Design of reverse logistics for disposal of unused vaccine |
| Level 2 resilience sub-factors | |
|---|---|
| Design of distribution and logistics network for reach and scalability | |
| Design for adequate cold chain infrastructure, capacity and efficiency | |
| Design for manufacturing scalability | |
| Design for mass vaccination scale and reach | |
| Modeling and analysis of costs to meet mass vaccination budgets | |
| Use of information systems to track real time data on cold chain temperatures | |
| Use of information systems to determine airport pairs for flight scheduling | |
| Design of vaccination site logistics for speed (queuing) | |
| Identification of vaccine technology types and manufacturing requirements | |
| Building of regulatory capacity to meet requirements | |
| Determination of number of vaccinators and healthcare workers at mass vaccination sites | |
| Design of sustainable or circular waste management systems | |
| Assessment of waste disposal capacity | |
| Use of real temperature data to control product waste | |
| Design of reverse logistics for disposal of unused vaccine |