Resilience Toolbox

Resilience tools can be useful for a wide range of practitioners but it can be hard to find the right tool for the job. The Resilience Shift has assessed a wide range of tools, which are listed below, mapped by the resilience value they add at different stages of the infrastructure lifecycle. More information about the project can be found here.

Use the filters to break down the results by sector and user type. Click the + button for additional filters.

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35 tools found | Visualise these results in the value chain Show full details for each tool as a list

Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse
AdaptInfrastructure
CB-CitiesCB-Cities
CDIA Project Screening
Climate Lens
Coastal Resilience
CRIDACRIDA
CRPT
CWRA
Envision
Green Evaluation
GRRASPGRRASP
HazusHazus
ICLEI ACCCRNICLEI ACCCRN
Open Data for Resilience IndexOpen Data for Resilience IndexOpen Data for Resilience Index
OpenSeesOpenSees
OurWaterOurWater
PCVA
PREPPREP
QREQRE
REDi
RELi
Reliability WorkbenchReliability Workbench
Resilence Atlas
Resilience GarageResilience Garage
RVR
SimCenterSimCenter
Simulating Critical InfrastructuresSimulating Critical Infrastructures
SmartScan
Surging SeasSurging SeasSurging Seas
The IS Rating Scheme
ThinkHazard!ThinkHazard!
UCRAUCRA
UrbanSimUrbanSim
WEDGWEDG
World Bank Climate & Disaster Risk Screening ToolsWorld Bank Climate & Disaster Risk Screening Tools

AdaptInfrastructure

AdaptInfrastructure is the home of adaptation analysis. Here you get to drive the analysis according to different scenario settings you need. Test the effectiveness of adaptation options – from building with different materials, raising floor levels in a flood zone or increasing the design specifications in a wind zone.

Features are:

  • Specify your inputs to refine your analysis
  • Specify the time you want to apply each action, how much it will cost and which assets will be adapted
  • Trial adaptation options to reduce the risk to your assets
  • Compare the performance of adaptation pathways in terms of customers, cashflow, net present value and other KPIs
  • Combine adaptation options to develop an optimal adaptation pathway

Content provided by developer.


Who is it for? (NB. Decision makers, planners and engineers)
Phase:,
Sector:
Sector specific?No
Type:
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Region: , ,
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

CB-Cities

Berkeley group is actively developing such a large-scale and high-fidelity traffic simulation model for several big cities around the world. It builds upon the concept of Agent Based Modelling (ABM), where individual citizens are represented by intelligent agents. An agent is capable of navigating in a graph representation of the city’s road network along an optimum path, while maintaining interactions with other agents and dynamically re-planning the route in response to traffic congestion or road closures. The model can accommodate millions of agents and run simulations as in real time.

Content provided by developer.


Who is it for?
Phase:,
Sector:
Sector specific?Built environment
Type:
Maturity:
Region:
Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

CDIA Project Screening

CDIA Project Screening Tool

This tool aims to help cities identify and profile investments, particularly those prioritized in climate resilience strategies, to enhance opportunities for downstream finance.

CDIA focuses on developing investments in urban infrastructure and service between city-level urban strategies and implementing specific infrastructure projects with domestic, international, public, or private financing.

Content provided by developer.


Who is it for? (NB. Financiers and project developers of medium-sized cities in Asia and the Pacific)
Phase:
Sector:
Sector specific?No
Type:
Maturity:
Region:
Value Chain Stage: ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Climate Lens

The Climate Lens is a horizontal requirement applicable to Infrastructure Canada’s Investing in Canada Infrastructure Program (ICIP), Disaster Mitigation and Adaptation Fund (DMAF) and Smart Cities Challenge. It has two components the GHG mitigation assessment, which will measure the anticipated GHG emissions impact of an infrastructure project, and the climate change resilience assessment, which will employ a risk management approach to anticipate, prevent, withstand, respond to, and recover from a climate change related disruption or impact.

As part of the Investing in Canada plan, applicants seeking federal funding for new major public infrastructure projects will now be asked to undertake an assessment of how their projects will contribute to or reduce carbon pollution, and to consider climate change risks in the location, design, and planned operation of projects.

The Climate Lens will help infrastructure owners design better projects by assessing their opportunities to reduce carbon pollution and identify when they should be adapting project design to better withstand impacts of climate change (e.g. severe weather, floods, sea-level rise, etc.). A General Guidance document has been prepared to explain the required approach, define the scope of the assessment, and identify the specific information that must be submitted to Infrastructure Canada.

Content provided by developer.


Who is it for? (NB. Canada's Infrastructure owners/ project planners (Infrastructure seeking federal fundings))
Phase:,
Sector:
Sector specific?No
Type:
Maturity:
Region:
Value Chain Stage:
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Coastal Resilience

Coastal Resilience is a global network of practitioners who are applying an approach and web-based mapping tool designed to help communities understand their vulnerability from coastal hazards, reduce their risk and determine the value of nature-based solutions.

Coastal Resilience is a program led by The nature Conservancy. It is an approach which includes a four step process to access and reduce ecological, socio-economic risks of coastal hazards. Through this approach they have developed planning methods, a decision support tool, and web apps that address specific coastal issues.

Content provided by developer.


Who is it for? (NB. Decision makers - Planners, government officials, and communities)
Phase:
Sector:
Sector specific?No
Type:
Maturity:
Region:
Value Chain Stage:

Developed by

Mississippi-Alabama Sea Grant Consortium and NOAA's Coastal Storms Program

Open ToolView Case Study

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Diagnose & ConceiveDesign & DeliverOperate & Maintain
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CRIDA

Climate Risk Informed Decision Analysis

CRIDA provides stepwise planning guidance for water resources planners, managers, and engineers to implement robust water management as promoted by the AGWA network — particularly for water managers working in the developing world. CRIDA will initially launch as a publication, and support a community of practice to rapidly scale up implementation.

Content provided by developer.


Who is it for? (NB. Decision makers, planners, engineers)
Phase:,
Sector:
Sector specific?No
Type:
Maturity:
Region:
Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

CRPT

City Resilience Profiling Tool

The City Resilience Profiling Tool (CRPT) is a self-assessment tool primarily addressed to municipal leaders, managers, urban planners, and other personnel with a responsibility for ensuring the safety, maintenance, and security of all aspects and functions of an urban area, including critical infrastructure and services, health facilities, transport and telecommunications networks, sanitation, water, etc.

The City Resilience Profiling Programme (CRPP) designs this tool for generating metrics for urban resilience in order to establish baselines (or ‘profiles’) upon which to integrate resilience based inputs to sustainable urban planning, development, and management processes in cities and other human settlements throughout the world. The main goal of the CRPP is to support local governments and their stakeholders by transforming urban areas into safer and better places to live in, and improve their capacity to absorb and rebound quickly from any and all potential shocks or stresses.

Content provided by developer.


Who is it for? (NB. Local government)
Phase:
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

CWRA

City Water Resilience Approach

The City Water Resilience Approach (CWRA) responds to a demand for innovative approaches and tools that help cities build water resilience at the urban scale. The CWRA was developed to help cities grow their capacity to provide high quality water resources for all residents, to protect them from water-related hazards, and to connect them through water-based transportation networks (“provide, protect, connect”).

The approach is the result of fieldwork and desk research, collaborative partnerships with subject matter experts, and direct engagement with city partners. Based on this research, the CWRA outlines a process for developing urban water resilience, and provides a suite of tools to help cities grow their capacity to survive and thrive in the face of water-related shocks and stresses. The approach details five steps to guide cities through initial stakeholder engagement and baseline assessment, through action planning, implementation and monitoring of new initiatives that build water resilience.

Content provided by developer.


Who is it for? (NB. Primarily government, owners and operators, but all stakeholders potentially)
Phase:, , ,
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Sector specific?Water
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Envision

Envision is a groundbreaking resource for professionals involved in planning, designing, building, maintaining civil infrastructure. As a rating system for sustainable infrastructure, Envision is supported by a wide array of respected organisations involved in infrastructure design, construction, and operation.

Envision provides guidance on sustainable best practices at no cost to users, and serves not only as a planning and design tool, but also as means of evaluating infrastructure project once complete.

Content provided by developer.


Who is it for? (NB. Infrastructure owners, designers, community groups, environmental organisations, constructors, regulators, policy makers)
Phase:
Sector:
Sector specific?Built Environment
Type:
Maturity:
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Value Chain Stage: , , , , , , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Green Evaluation

We base our evaluation of an adaptation project on the increase in resilience the project is likely to provide for the covered geographical area or asset base. This results in the adaptation score.

First, we quantitatively evaluate the benefit of the added resilience, relative to the amount of the financing’s proceeds, on a five-point scale.

The benefit is the forecast reduction in the cost of expected damages caused by extreme weather events. It is based on an entity’s analysis, to which we may apply quantitative adjustments.

Second, we modify the evaluation score determined in the first step, based on our qualitative view of the adequacy of an entity’s quantification approach to determining the resilience benefit.

Third, we may apply additional adjustments in certain cases – for example, for projects that are in developing countries for which the resilience benefit may be understated because the likely significant social benefits are difficult to quantify.

Content provided by developer.


Who is it for?
Phase:,
Sector:
Sector specific?No
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Region:
Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

GRRASP

Geospatial Risk and Resilience Assessment Platform

Geospatial Risk and Resilience Assessment Platform (GRRASP) is a World Wide Web oriented architecture bringing together geospatial technologies and computational tools for the analysis and simulation of critical infrastructures. It allows information sharing and constitutes a basis for future developments in the direction of collaborative analysis and federated simulation. It takes on board security concerns in the information sharing process, thanks to its ability to manage users and roles consistently. Based entirely on open source technologies, the system can also be deployed in separate servers and used by EU Member States as a means to facilitate the analysis of risk and resilience in critical infrastructures.

GRRASP can be used for the analysis of complex networked systems taking into consideration cross-sectoral and cross-border interdependencies. It can be used for analyses of CI disruptions at local, regional, national, international level. GRRASP follows a tiered approach according to which Tier 1 modules can be used for the analysis of critical infrastructures at sectoral level, Tier 2 modules for cross-sectoral analyses (interdependencies), and finally Tier 3 modules for high level economic impact of CI disruption at state level.

Content provided by developer.


Who is it for? (NB. Infrastructure operators)
Phase:
Sector:
Sector specific?Critical Infrastructure Systems
Type:
Maturity:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Hazus

Hazus is a nationally applicable standardized methodology that contains models for estimating potential losses from earthquakes, floods, and hurricanes. Hazus uses Geographic Information Systems (GIS) technology to estimate physical, economic, and social impacts of disasters. It graphically illustrates the limits of identified high-risk locations due to earthquake, hurricane, flood, and tsunami. Users can then visualize the spatial relationships between populations and other more Earthquake, Wind, Flood, Tsunami permanently fixed geographic assets or resources for the specific hazard being modelled, a crucial function in the pre-disaster planning process.

Hazus is used for mitigation and recovery, as well as preparedness and response. Government planners, GIS specialists, and emergency managers use Hazus to determine losses and the most beneficial mitigation approaches to take to minimize them. Hazus can be used in the assessment step in the mitigation planning process, which is the foundation for a community’s long-term strategy to reduce disaster losses and break the cycle of disaster damage, reconstruction, and repeated damage. Being ready will aid in recovery after a natural disaster.

Potential loss estimates analysed in Hazus include:

  • Physical damage to residential and commercial buildings, schools, critical facilities, and infrastructure;
  • Economic loss, including lost jobs, business interruptions, repair, and reconstruction costs;
    Social impacts, including estimates of shelter requirements, displaced households, and population exposed to scenario floods, earthquakes, and hurricanes, and tsunamis.
  • As the number of Hazus users continues to increase, so do the types of uses. Increasingly, Hazus is being used by states and communities in support of risk assessments that perform economic loss scenarios for certain natural hazards and rapid needs assessments during hurricane response. Other communities are using Hazus to increase hazard awareness.

Content provided by developer.


Who is it for? (NB. Government planners, GIS specialists, and emergency managers)
Phase:,
Sector:
Sector specific?No
Type:
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Region:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

ICLEI ACCCRN

ICLEI ACCCRN Process Workbook

The ICLEI ACCCRN Process (IAP) enables local governments to assess their climate risks in the context of urbanisation, poverty and vulnerability and formulate corresponding resilience strategies. The ICLEI ACCCRN Process has been designed in a step-by-step format, divided into 6 phases. Phases 5 and 6 that guide cities in the implementation and monitoring phases will be included in the following edition of the IAP toolkit. The process is also designed to be a continuous cycle of review and refinement, rather than a closed cycle.

The phases are:

  1. Phase 1 of the process will provide all the tools and activities needed to start work with the city. The tools help local governments gain the necessary political and administrative support, establish a climate core team, involve local stakeholders, appropriately share relevant information through a tailored communications plan, and conduct an initial assessment of the city’s progress towards dealing with climate change.
  2. In Phase 2 the main impacts of climate change faced by the city are identified through shared learning dialogues and interactions with the climate core team. The fragile urban systems facing climate threats are also identified and prioritised according to their risk status.
  3. Phase 3 will assist the city government in producing climate vulnerability hotspot maps, in identifying the vulnerable social groups, and in analysing their adaptive capacities as well as those of the impacted urban systems.
  4. In Phase 4, city governments will use the information and analysis from the previous Phases to develop a list of potential resilience building interventions. The tools in this phase help screen and prioritise these interventions, link them to existing city plans, and compile all the information into a City Resilience Strategy.

Content provided by developer.


Who is it for? (NB. Local government)
Phase:
Sector:
Sector specific?No
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Region:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Open Data for Resilience Index

Open Data for Resilience Index (Beta)

The Open Data for Resilience Index is a tool to identify, assess and compare, for any country, the availability and ease of use of datasets that are considered to be key for disaster risk management. Anyone can submit a dataset. The result is a crowdsourced-database providing the state of open data for diaster risk management for any country.

Content provided by developer.


Who is it for?
Phase:
Sector:
Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

OpenSees

The Open System for Earthquake Engineering Simulation

A centerpiece of PEER’s program is new research on simulation models and computational methods to assess the performance of structural and geotechnical systems. Breaking the barriers of traditional methods and software development protocols, PEER has embarked on a completely new approach in the earthquake engineering community by developing an open-source, object-oriented software framework. OpenSees is a collection of modules to facilitate the implementation of models and simulation procedures for structural and geotechnical earthquake engineering. By shared development using well-designed software interfaces, the open-source approach has affected collaboration among a substantial community of developers and users within and outside of PEER. Unique among software for earthquake engineering, OpenSees allows integration of models of structures and soils to investigate challenging problems in soil-structure-foundation interaction. In addition to improved models for reinforced concrete structures, shallow and deep foundations, and liquefiable soils, OpenSees is designed to take advantage of the latest developments in databases, reliability methods, scientific visualization, and high-end computing.

Content provided by developer.


Who is it for?
Phase:,
Sector:
Sector specific?Hazards
Type:
Maturity:
Region:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

OurWater

OurWater

OurWater helps users visualize the processes, stakeholders and infrastructure networks that make up their city’s water system.

OurWater has been developed to address the growing need for tools that can help cities share information between different stakeholders and visualize complex interactions. This goal of understanding the city’s water landscape is one critical element of moving towards the goal of building cities’ capacity to endure, adapt and transform in the face of water challenges.

Content provided by developer.


Who is it for?
Phase:, ,
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

PCVA

Participatory Capacity and Vulnerability Analysis

Oxfam’s participatory capacity and vulnerability analysis (PCVA) tool is a risk analysis process designed to help staff and partner organisations engage with communities in contexts where natural disasters are significant drivers of poverty and suffering. PCVA has its roots in two proven social development methodologies. First, it stems from capacity and vulnerability analysis (CVA) methodology. This has long enabled development and humanitarian aid workers to design programmes based on a community’s capacities as well as its vulnerabilities. It recognises that vulnerable people have capacities to cope with adversity and can take steps to improve their lives, however difficult their situation may be. Second, it is rooted in the belief that enabling communities to genuinely participate in programme design, planning, and management leads to increased ownership, accountability and impact, and is the best way to bring about change. PCVA draws on a wide range of participatory learning and action (PLA) techniques and tools that are designed to channel participants’ ideas and efforts into a structured process of analysis, learning, and action planning, with the overall aim of reducing a community’s disaster risk.

Content provided by developer.


Who is it for? (NB. Project services)
Phase:
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

PREP

The Partnership for Resilience and Preparedness data tool

PREPdata is a map-based, open data online platform that allows users to access and visualize spatial data reflecting the past and future climate, as well as the physical and socioeconomic landscape for climate adaptation and resilience planning. The platform is continuing to evolve through the input of PREP partners and PREPdata users. It is a flexible tool for climate adaptation planning, designed to address many of the gaps and challenges adaptation practitioners face.

Distinguishing elements of PREPdata:

  • A visual, map-based platform that is user-friendly and customized to different contexts and skill levels;
  • Active curation of datasets focused on climate resilience, streamlining the process of accessing and navigating to relevant data;
  • A commitment to global coverage, with an emphasis on increasing access to datasets for the Global South, and support for applications across different scales and geographies; and
  • A user-needs based strategy for platform development, utilizing the knowledge and network of the partners and platform users to enable continuous improvement.

Content provided by developer.


Who is it for? (NB. Decision makers)
Phase:,
Sector:
Sector specific?No
Type:
Maturity:
Region:
Value Chain Stage: ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

QRE

Quick Risk Estimation tool

The Quick Risk Estimation tool is designed for the purposes of identifying and understanding current and future risk/ stress/ shocks and exposure threats to both human and physical assets. The QRE tool is not a full scale risk assessment, rather a multi-stakeholder engagement process to establish a common understanding. Taking into account the actions or corrective measures already undertaken, the QRE will produce a dashboard-style risk assessment advising the risks and hazard to human and physical assets, impacts of identified main risk and associated perils on the specified location and/or particular assets.

Content provided by developer.


Who is it for? (NB. Multi-stakeholder)
Phase:
Sector:
Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

REDi

Resilience-based Earthquake Design Initiative

The REDi Rating System is developed by Arups Advanced Technology and Research team, it proposes a framework for owners, architects, and engineers to implement ‘resilience-based earthquake design’ to new development. It describes design and planning criteria to enable owners to resume business operations and provide liveable conditions quickly after an earthquake, according to their desired resilience objectives. It also presents a loss evaluation methodology for assessing the success of the adopted design and planning measures in meeting the resilience objectives.

Content provided by developer.


Who is it for? (NB. To provide building owners, architects and engineers a framework for resilience-based earthquake design, specifically related to the new development of a building. The framework is not designed for use on existing structures.)
Phase:
Sector:
Sector specific?No
Type:
Maturity:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

RELi

The Resilience Action List (RELi) standard

The RELi 2.0 Rating System (RELi 2.0) is a holistic, resilience-based rating system that combines innovative design criteria with the latest in integrative design processes for next-generation neighborhoods, buildings, homes and infrastructure. By selectively bundling existing sustainable and regenerative guidelines with RELi’s ground-breaking credits for emergency preparedness, adaptation, and community vitality, RELi 2.0 is the most comprehensive reference guide and certification available anywhere for socially and environmentally resilient design and construction.

Since 2017, RELi has been managed by the U.S. Green Building Council, Inc. (USGBC) which, in conjunction with Market Transformation to Sustainability, is leading the evolution of RELi 2.0 to synthesize the LEED Resilient Design pilot credits with RELi’s Hazard Mitigation and Adaptation credits. RELi 2.0 certification is based on a point system. The number of points that a project earns determines the certification level it receives.

Content provided by developer.


Who is it for? (NB. Infrastructure owners, designers, community groups, environmental organisations, constructors, regulators, policy makers, etc.)
Phase:
Sector:
Sector specific?Built environment
Type:
Maturity:
Region:
Value Chain Stage:

Developed by

Various

Open Tool

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Reliability Workbench

Reliability Workbench is Isograph’’s flagship suite of reliability, safety and maintainability software. You can use Reliability Workbench to display which maintenance or design changes will improve system reliability, predict the reliability of systems and create maintenance plans accordingly. The custom built report designer allows you to create reports with any amount of detail, high level right down to component specific information. Add a whole new level of detail to your system reliability presentations. The Enterprise edition of Reliability Workbench allows collaboration between colleagues on projects. Limit access to projects and folders to appropriate users and allow managers to approve or reject changes to projects with version control.

Content provided by developer.


Who is it for? (NB. Decision makers, planners and engineers)
Phase:
Sector:
Sector specific?No
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Maturity:
Region:
Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Resilence Atlas

The Resilience Atlas was developed with funding from the Rockefeller Foundation to identify where projects should take place and allow users to derive insights of their own based on data. The developers believed that policymakers and donors needed to know where problems were occurring to know where to make investments.

The Resilience Atlas is an interactive analytical tool for building:

  1. Understanding of the extent and severity of some of the key stressors and shocks that are affecting rural livelihoods, production systems, and ecosystems in the Sahel, Horn of Africa and South and Southeast Asia;
  2. Insights into the ways that different types of wealth and assets (i.e. natural capital, human capital, social capital, financial capital and manufactured capital) and combinations among these – impact resilience in particular contexts.

The tool is a web-based open source mapping platform.

To date, the tool has been used at the national level, but there are opportunities to use the data at a more localized level. Data is available for all countries. This tool is primarily used in places where capacity for remote sensing and GIS is lower. “

Content provided by developer.


Who is it for? (NB. Assets owner / managers / operators)
Phase:,
Sector:
Sector specific?Buildings
Type:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
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Resilience Garage

The Resilience Garage assembles a group of 20-25 experts from across sectors and disciplines with the aim to peer review and to identify opportunities to better understand or solve challenging problems. This is done through either specific resilient projects (projects that have multiple benefits and address multiple issues) or by developing key focus areas for further consideration. It is practical – aiming for concrete recommendations – as well as fundamental – rigorously applying a rich resilience toolset. It applies the learning and tools developed following a two-year collaboration that explored how to make resilience more actionable.

Content provided by developer.


Who is it for? (NB. Infrastructure owners, designers, community groups, environmental organisations, constructors, regulators, policy makers, etc.)
Phase:,
Sector:
Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
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RVR

Resilience Value Realization

The Resilience Value Realization (RVR) methodology was developed by ValueLabs through funding from The Rockefeller Foundation to be used by city governments with project owners identified.

RVR is a customized approach to project planning, pre-development, and development that was designed to identify, catalyze and protect the delivery of resilience value to public and private stakeholders in a project. The RVR approach comprises working with project teams and resilience champions to be very specific about how the opportunity can create resilience and to address, as an integral part of project development, any challenges impacting the delivery of resilience value. The workshop is structured to start with understanding where things are today, then asks participants to develop an opportunity statement around where they want to be in the future, which leads to development of a roadmap for realizing that opportunity.

The tool is flexible and has also been used to identify and empower a project owner.
This tool is delivered as a workshop, but requires pre-work including interviews, data gathering, and data representation (drawings, maps, figures, etc.). This tool can be used in all geographic regions.

Content provided by developer.


Who is it for? (NB. Infrastructure owners, designers, community groups, environmental organisations, constructors, regulators, policy makers, etc…)
Phase:
Sector:
Sector specific?Cities
Type:
Maturity:
Region:
Value Chain Stage: , ,

Developed by

Marcela Ruibal

Open ToolView Case Study

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SimCenter

Computational Modeling and Simulation Center

The Computational Modeling and Simulation Center (SimCenter) provides next-generation computational modeling and simulation software tools, user support, and educational materials to the natural hazards engineering research community with the goal of advancing the nation’s capability to simulate the impact of natural hazards on structures, lifelines, and communities. In addition, the Center will enable leaders to make more informed decisions about the need for and effectiveness of potential mitigation strategies.

Content provided by developer.


Who is it for?
Phase:, ,
Sector:
Sector specific?Hazards
Type:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Simulating Critical Infrastructures

This simulation software allows you to calculate the cascade effects using various impact indicators, from number of people affected to projected costs. A variety of techniques are used to visualize the scenarios, including standard reports, 2D and 3D interfaces and full-blown virtual reality representations. To create the future you want, this tool helps you see the future you want to avoid.

Content provided by developer.


Who is it for? (NB. Infrastructure operators)
Phase:, ,
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

SmartScan

The SuRe SmartScan contributes to action items addressing two challenges (Capital Investment Planning Poor, and/or Non Climate-Smart, Local Development Planning Poor, including Resilience) of the City Creditworthiness Self-Assessment & Action Planning Toolkit of the World Bank.

Increase your infrastructure project’s attractiveness to investors in only a few steps. The GIB SmartScan allows you to assess your projects based on its Environmental, Social, and Governance (ESG) issues and helps to efficiently flag risks and opportunities for improvements of your project. This process helps you to identify and therefore eliminate risks and to improve the ESG aspects of the assessed project, which is increasingly a mandatory consideration for investors in their investment decisions.

Content provided by developer.


Who is it for? (NB. Infrastructure owners)
Phase:
Sector:
Sector specific?No
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Region:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Surging Seas

Sea Level Rise and Extreme Sea Level Analysis Service

This app exposes information from global climate models combined with datasets on vertical land movement on a local level, and shows this with local population density information (which clearly shows the extend of coastal cities), offering opportunities for data presentation previously unavailable to a wider audience.

The extreme sea levels analysis tool includes the latest historical storm surge data for the globe, high tide events, and sea levels changes caused by lower atmospheric pressure and severe winds during storms in climate scenarios.

Aside from the SLR tool, there are other similar tools as part of the same tool developer that analyse other indicators such as climate change scenarios and baseline data generation, drought monitoring, heat index, etc.

Content provided by developer.


Who is it for? (NB. Other tool developers, public and private actors)
Phase:
Sector:
Sector specific?No
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Value Chain Stage: , , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

The IS Rating Scheme

The IS Rating Scheme by Infrastructure Sustainability Council of Australia

The IS Rating Scheme (IS) is Australia and New Zealand’s only comprehensive rating system for evaluating sustainability across planning, design, construction and operation of all phases of infrastructure programs, projects, networks and assets.

Content provided by developer.


Who is it for? (NB. Project developers and owners)
Phase:,
Sector:
Sector specific?No
Type:
Maturity:
Region:
Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

ThinkHazard!

GFDRR, a unit within the World Bank, has developed a web-based tool ThinkHazard! to enable non-specialists (decision makers, planners and government staff) to consider the impacts of disaster on new developments of project.
Users can quickly assess the level of river flood, earthquake, drought, cyclone, coastal flood, tsunami, volcano, and landslide hazard within their project area to assist with project planning and design. Users are only required to enter their project location – national, provincial or district name. The results interface shows a user whether they require high, medium or low awareness of each hazard when planning their project.

The interface provides links to additional resources such as country risk assessments, best practice guidance, and additional websites. ThinkHazard! also highlights how each hazard may change in the future as a result of climate change.
The tool is a web-based open source mapping platform allowing other developers to improve or alter the platform.
This tool is available in English, French, and Spanish. Data is available for all countries, but the information is most relevant for less developed countries as GIS datasets are more advanced in more developed countries.

Content provided by developer.


Who is it for? (NB. Development professionals, planners, anyone. It should not replace more robust data though)
Phase:
Sector:
Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

UCRA

The Urban Community Resilience Assessment

The Urban Community Resilience Assessment (UCRA) helps cities incorporate individual and community capacities—social cohesion, familiarity with local climate risks, early warning systems and disaster readiness—into broader urban resilience evaluations. By analysing these local capabilities, the UCRA provides a snapshot of preparedness behaviours, risk perception and the strength of neighbourhood relationships. These findings enable individuals to identify context-specific adaptation actions and allow policymakers to engage community members in urban resilience planning.

Content provided by developer.


Who is it for? (NB. Local government)
Phase:
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Sector specific?No
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Value Chain Stage: ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

UrbanSim

UrbanSim Modelling Methodology

UrbanSim leverages state-of-the-art urban simulation, 3D visualization, and shared open data to empower users to explore, gain insights into, and develop and evaluate alternative plans to improve their communities. UrbanSim is a simulation platform for supporting planning and analysis of urban development, incorporating the interactions between land use, transportation, the economy, and the environment.

Content provided by developer.


Who is it for? (NB. Owners and planners)
Phase:,
Sector:
Sector specific?Built environment
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

WEDG

Waterfront Edge Design Guidelines

WEDG employs an evidence-based approach, focusing on three key pillars of excellent waterfront design:

  1. Resilience: Reduce risks or be adaptable to the effects of sea level rise and increased coastal flooding, through setbacks, structural protection, and other integrative landscaping measures.
  2. Ecology: Protect existing aquatic habitats and use designs, materials, and shoreline configurations to improve the ecological function of the coastal zone, and strive to be consistent with regional ecological goals.
  3. Access: Be equitable and informed by the community, enhancing public access, supporting a diversity of uses, from maritime, recreation, and commerce where appropriate, thereby maximizing the diversity of the harbour and waterfront.

Content provided by developer.


Who is it for? (NB. Infrastructure owners, designers, community groups, environmental organisations, constructors, regulators, policy makers, etc.)
Phase:,
Sector:
Sector specific?No
Type:
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Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

World Bank Climate & Disaster Risk Screening Tools

Self-assessment tools provide a systematic, consistent, and transparent way of considering short- and long-term climate and disaster risks in project and national/sector planning processes. The tools target a range of sectors (both national/ policy and project levels): national plans, agricultural, coastal flood protection, energy, health, roads, water, etc.

Content provided by developer.


Who is it for? (NB. Project developers (project level tools available) , public sector (policy level tools available))
Phase:
Sector:
Sector specific?No
Type:
Maturity:
Region:
Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

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