Some Climate Change Assessment Tools for Businesses


Climate Change Assessment Tools

  • Global Fibre Impact Explorer

The Global Fibre Impact Explorer combines Google Cloud’s technical capabilities with WWF’s unmatched conservation expertise to help fashion brands make more sustainable sourcing decisions. The primary goal is to identify high-risk fibers in brands’ portfolios and then lead them to suggestions for supporting the local projects for improving the environmental impact.


  • Environmental Insights Explorer

This tool is providing cities with data and visions of a carbon-free future. With Environmental Insights Explorer (EIE), Google is assisting cities and local governments around the globe to analyze the emissions data and discover approaches for taking action. Carbon reporting specialists, engineers, and data specialists across Google developed EIE to help the process of creating an emissions standard for the city easy and actionable. EIE’s core understandings are assessments based on real action and structure. By using enhanced machine learning, EIE applies local scaling, productivity, and emissions elements to create abundant supplies and vigorous data analytics that are easily accessible to cities and local governments.


  • Global Fishing Watch Map

A fishing map is an open-access tool available online for visualizing and evaluating human activities at sea. Anyone with an internet connection can access the map for monitoring global fishing activities. The tool is expanding ocean governance by enhancing the precision of human activity. They designed openly shared maps, and data to support systematic study and operate a transformation to control our ocean.

Global Forest Watch

It extends the latest data, technology, and tools that encourage people all around the world to protect forests. GFW is an accessible platform that supports data and tools for scrutinizing forests, by using cutting-edge technology. It also allows everybody to access real-time data about where and how forests are altering around the world.


  • Global Power Plant Database

The Global Power Plant Database is a complete open-source database of power plants. It integrates data of power plants to make it simpler to steer, evaluate, and take understandings for analysis. The database includes about 30,000 plants all around 164 countries including thermal plants and renewables. Each power plant is sourced and recorded including data on plant capacity, production, possession, and fuel type. The database continuously updates as data becomes available.



The framework is developed by European Commission’s Joint Research Centre. This datasheet comprises the location and resultant distribution of water surfaces at the global scale over the previous 3.7 decades and provides figures on the amount and shift of the water surfaces. The dataset, created from Landsat imagery, supports applications including water resource management, climate modeling, biodiversity conservation, and food security.

EHS Tools

National Association for Environment, Health and Safety, and Sustainability management (NAEM) released a report which revealed that developing technologies are rapidly changing how companies answer those questions. In its latest research, the association found that companies are experimenting with some truly advanced solutions to improve data collection, reduce risks and monitor their environmental impacts in the real moment.

Here is a look at a few technological tools that are starting to take hold:


  • Smart sensors

31% of defendants are using or assessing utilizing smart sensors in work. Smart sensors have a range of applications at work. These devices take inputs from the physical environment and use built-in computational resources to respond and execute predefined tasks upon recognition of a certain response. Smart sensors can be used for all from tracing worker safety to see if a line operator is at risk of an injury to supervising a storage tank’s walls for steadiness and the liquid contents inside to make sure they are in the proper equilibrium.


  • Drones

Drones and unmanned airborne devices can monitor large strips of land and others which are difficult to retrieve by road or foot. In forest areas, illegal deforestation can be tracked and monitored. In the agricultural area, fields can be monitored for crop growth, swarms, and irrigation leakages. Armed drones can be used by farmers with extremely high-focused cameras and thermal imaging to observe cattle’s position and health.


  • Artificial intelligence and Machine Learning

The most vital functions blend raw data with a computer effective enough to detect shapes and makeup judgments with negligible social intervention. One machine learning platform NAEM recorded automates judgment-making for retailers on unsalable objects such as seeping detergent or expired hair dye. It delivers retail employees with a barcode scanner linked to a database that warns workers about the hazardous materials included in the products and the best way to dispose of them.


  • Virtual reality

Virtual reality makes EHS&S training quicker, simpler, and more efficient. More accurately illustrating a safety risk companies can use a replicated work atmosphere to educate employees on just how to securely pick up and load up, perform new skills, and work in restricted areas. EHS&S professionals are also utilizing it to organize simulated “walkarounds” of facilities before building agreement problems and to recommend alterations that might be made while the project is still in the design phase.


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