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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29 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
CAESAR
CB-CitiesCB-Cities
CDIA Project Screening
City Resilience Actions Inventory and Stakeholder Perception Review
City Scan
CityStrength Diagnostic
CRAFT
CRICRI
EDGe$
Envision
Equitable Origin
GRRASPGRRASP
HAZUR®HAZUR®
HazusHazus
ICLEI ACCCRNICLEI ACCCRN
OASIS Loss Modelling FrameworkOASIS Loss Modelling Framework
OurWaterOurWater
PREPPREP
REDi
RELi
Resilence Atlas
RESILENS
Resilience GarageResilience Garage
Resilience.io
RVR
ThinkHazard!ThinkHazard!
TORC
UCRAUCRA
UrbanSimUrbanSim

CAESAR

Cascading Effect Simulation in Urban Areas to Access and Increase Resilience

The Tool CAESAR (Cascading Effect Simulation in urban Areas to assess and increase Resilience) addresses the need to better understand the cascading effects of major disasters in connected and interdependent urban infrastructure systems. CAESAR has the capacity to identify the most vulnerable components within individual infrastructure grids and it allows to assess potential damages within the grid as well as within coupled grids. In addition, the tool is capable to simulate mitigation strategies and their effectiveness beyond single grid boundaries. Required input parameters can be adjusted to the level of the available information enabling analyses on varying levels of detail. The tool can be applied to vital infrastructure grids such as energy, transport and telecommunication.

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

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
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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
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

City Resilience Actions Inventory and Stakeholder Perception Review

This review aims to document and analyse existing plans, policies and projects in the city. Establish a baseline of where the city is taking action across the 12 drivers of resilience and identify efforts the City Resilience Strategy can further develop and/or advance.

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:
Maturity:
Region:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

City Scan

Rapid urbanization is transforming the planet and the way we live. For the first time in history, more people live in cities than in rural areas, and 90 percent of this urban expansion is taking place in developing countries. Urbanization, if managed well, can help reduce poverty and increase prosperity, as cities can accelerate growth, attract investment, spur innovation and enhance productivity. Poorly managed urbanization, however, can exacerbate existing challenges – including insecure livelihoods, inadequate provision of infrastructure and services, poor urban and systems planning, inadequate oversight of land use and building standards – and leave cities more vulnerable to natural hazards.

In this context, the World Bank Group’s (WBG) City Resilience Program (CRP) is an effort to engage city governments in a long-term partnership to identify areas of need and opportunity and to define a robust response towards building resilience. A broad coalition of experts and working groups accompanies each city-level engagement from program design to implementation to ensure an integrated, risk-informed and spatially driven approach.

The CRP has developed an assessment tool and framework that provides a rapid assessment of the critical development challenges that cities face using publicly available data. The City Scan aims to serve as a conversation starter between the World Bank task team and client city to assess cities’ investment priorities and financing needs in six broad areas, namely: (i) population trends, (ii) city competitiveness and economic growth, (iii) access to infrastructure and public services, (iv) urban transport and mobility, (v) climate mitigation, and (vi) municipal finance and institutions. Each of these areas is informed by various sources of global flood risk information to integrate the needs and challenges of both the built and natural environments.

In addition, other supplementary information (i.e., pedestrian and public transport accessibility, building footprints, and historic and near-real time flood monitoring, among others), in collaboration with different spatial data and remote sensing service providers, are considered in this assessment to tailor fit the City Scan to cities’ specific investment needs. The City Scan is currently being piloted in 14 cities in Sub-Saharan Africa, and is anticipated to be scaled up to other regions in the next phase of engagement.

Content provided by developer.


Who is it for? (NB. Decision makers and Planners)
Phase:
Sector:
Sector specific?Cities
Type:
Maturity:
Region:
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

CityStrength Diagnostic

CityStrength is a rapid diagnostic that aims to help cities enhance their resilience to a variety of shocks and stresses. A qualitative assessment developed with support from the Global Facility for Disaster Reduction and Recovery (GFDRR), the diagnostic takes a holistic and integrated approach and encourages collaboration between sectors to more efficiently tackle issues and unlock opportunities within the city. CityStrength is flexible and can adapt to different needs of clients in terms of depth and breadth, and can be implemented in any city or combination of cities within a country regardless of size, institutional capacity, or phase of development.

Content provided by developer.


Who is it for? (NB. Government, civil society, residents, and the private sector)
Phase:
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

CRAFT

Climate Risk And Adaptation Framework And Taxonomy

CRAFT provides:

  • a framework for cities to perform robust and consistent reporting of climate hazards and associated adaptation planning and implementation that is required by the Compact of Mayors;
  • a means to monitor and evaluate adaptation planning progress to help cities improve adaptation efforts by enhancing knowledge of best practices;
  • a means for cities to identify priorities and target advocacy for climate adaptation resources;
  • the data to improve the ability for cities and their partners to identify peers and aspirational examples to help inform their own adaptation planning process and implementation.

Content provided by developer.


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

CRI

City Resilience Index

The City Resilience Index is the first comprehensive tool for cities to understand and assess their resilience, enhancing their ability to build sound strategies and plans for a strong future. Through an online platform, it uses a comprehensive, holistic framework that is applicable at the city scale – one that combined the physical aspects of cities with intangible aspects associated with human behaviour which are often relevant in the context of economic, physical and social disruption. It is developed by Arup with support from The Rockefeller Foundation.

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
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

EDGe$

Economic Decision Guide Software

NIST had created EDGe$, based on the process found in the Community Resilience Economic Decision Guide for Buildings and Infrastructure Systems (EDG) and designed for use in conjunction with the NIST Community Resilience Planning Guide for Buildings and Infrastructure Systems (CRPG). EDGe$ is intended for community planners, resilience and budget officers, and the public.

The tool provides a transparent and flexible economic methodology based on best-practices for evaluating investment decisions aimed at improving the ability of communities to adapt to, withstand, and quickly recover from natural, technological, and human-caused disruptive events. The tool helps to identify and compare the relevant present and future resilience costs and benefits associated with new capital investment alternatives versus maintaining a community’s status-quo.

The case studies cited in the user manual are derived from the United States and the tool was developed with the United States context in mind.

Content provided by developer.


Who is it for? (NB. Public Community Planners and Resilience officers. Local government)
Phase:,
Sector:
Sector specific?Community level Resilience Planning, but skewed to buildings and Infrastructure Systems
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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
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

Equitable Origin

Equitable Origin Platform

Tool 1: EO100™ Standard for Responsible Energy Development

The EO100™ Standard for Responsible Energy Development provides a framework for implementing and verifying enhanced environmental, social and governance (ESG) performance, greater transparency, more accountability, and better outcomes for local stakeholders in energy development projects. The EO100™ Standard represents leading industry practices and references international standards for evaluating site-level ESG performance of energy and energy infrastructure projects.

The EO100™ Standard encompasses the following Principles:

  • Corporate Governance, Transparency & Ethics
  • Human Rights, Social Impact & Community Development
  • Indigenous People’s Rights
  • Fair Labor & Working Conditions
  • Climate Change, Biodiversity & Environment

Tool 2: Equitable Origin Platform

The Equitable Origin (EO) Platform is a one-stop resource that provides energy companies, utilities, investors, and corporate power purchasers with essential tools to effectively implement and track due diligence and compliance within their operations, supply chains, and investment portfolios. The EO100™ Performance Assessment provides a quick, easy, and efficient way to measure the performance of energy and energy infrastructure projects and suppliers of energy against a comprehensive and customizable range of environmental, social and governance (ESG) indicators.

Content provided by developer.


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

HAZUR®

HAZUR is a piece of software designed to support the design, implementation and management of cities resilience strategy.

  1. HAZUR Basic is the online software included in the certification courses of the Resilience Academy. It includes the basic functionalities to build your own city project.
  2. HAZUR Assessment helps to summarise all city data, to analyse interdependencies in service networks, to assess impacts aftermaths and cascade effects. It also enables the identification and prioritisation of potential improvement projects, facilitates the definition of crisis management protocols and supports a strategy development process.
  3. HAZUR Manager combines the Assessment information with real-time information and enables the simulation of risk situations at city level. It also equips the cities and experts with tools for service network monitoring, risk management and city stakeholder coordination.

Content provided by developer.


Who is it for? (NB. City strategists, city managers, resilience officers, City Stakeholders (Small-medium cities best))
Phase:,
Sector:
Sector specific?No
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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
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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:
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
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OASIS Loss Modelling Framework

OASIS Loss Modelling Framework (Catastrophe Modelling)

Catastrophe modelling (known as cat modelling) is the process of using computer-assisted calculations to estimate the losses that could be sustained due to catastrophic events such as a hurricane or earthquake.

OASIS is an improved risk assessment through more models, a different view of the risk, transparency, performance, and innovation. The Oasis Loss Modelling Framework provides an open source platform for developing, deploying and executing catastrophe models. It uses a full simulation engine and makes no restrictions on the modelling approach. Models are packaged in a standard format and the components can be from any source, such as model vendors, academic and research groups.

Content provided by developer.


Who is it for? (NB. Used in the field of insurance industry, actuarial science, engineering, meteorology and seismology)
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
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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?
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Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
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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
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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
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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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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:,
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Sector specific?Buildings
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

RESILENS

Realising European ReSILiencE for Critical INfraStructure

RESILENS will develop a European Resilience Management Guideline (ERMG) to support the practical application of resilience to all CI sectors. Accompanying the ERMG will be a Resilience Management Matrix and Audit Toolkit (ReMMAT) which will enable CI systems (encompassing assets and organisations) to have their level of resilience quantitatively and qualitatively indexed.

Content provided by developer.


Who is it for? (NB. Various e.g. Critical Infrastructure provider and at different spatial scales (urban, regional, national and transboundary))
Phase:,
Sector:
Sector specific?No
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Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

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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Resilience.io

Resilience.io is designed as a computer-based platform that provides an integrated systems view of a city-region. It will be an analysis and decision-support tool for collaboration and resilience decision-making. The resilience.io platform combines computer representations of resource flows, human and business activities and infrastructure systems. The platform contains a growing library of process models of typical human, industrial and ecological systems, the relevant ones of which are used in a local instance to create a tailored integrated systems model for a city-region.

Content provided by developer.


Who is it for? (NB. Decision makers)
Phase:,
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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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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.

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

TORC

Training for Operational Resilience Capabilities

The Training for Operational Resilience Capabilities (TORC) approach addresses three distinct training arenas; operational training addresses the exploration of the necessary margin of maneuver in the “compliance vs resilience” space, managerial training addresses the assessment of a reasonable and accountable space of maneuver, while integrated training addresses the active reconciliation of margin and space of maneuver. This facilitates a continual process of updating of rules based on the enhanced knowledge about the professional competence and craftsmanship in the organization at hand.

The TORC approach is designed to be applicable in different contexts; in a normal operation context where pre-existing rules and procedures form the expectations of compliance, in an emergency context in which emergency plans form the presumptions of compliance, and in a “managing the unexpected” context in which the applicable set of rules and procedures must be collected and formed instantly and situation-dependently.

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

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:
Sector:
Sector specific?No
Type:
Maturity:
Region:
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
Type:
Maturity:
Region:
Value Chain Stage: , ,
Diagnose & ConceiveDesign & DeliverOperate & Maintain
DiagnoseOptionsProcureDesign/PlanFinanceImplementOperateMaintainDispose/Reuse

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