A comprehensive guide
XIRIPedia is our comprehensive resource guide designed to provide clarity and understanding of essential key terms and concepts relevant to Industry 4.0, digital transformation, sustainability, and more.
Expand XIRIPedia with us
We are dedicated to crafting comprehensive resources for industry professionals, enthusiasts, and learners alike. Your contributions can elevate our glossary, making it an even more valuable asset to the community.
To propose a term for inclusion, simply fill in the submission form.
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
A
Additive Manufacturing (3D Printing)
This involves making three-dimensional solid objects from a digital file. It enables the creation of physical objects from a digital design, allowing for complex shapes and structures that traditional manufacturing methods cannot achieve. See also: 3D printing and Industry 4.0: what’s the state of play?
Advanced Analytics
The analysis of data using sophisticated techniques to predict future outcomes, discover patterns, and provide actionable insights. In manufacturing, it can be used to optimise production processes, improve supply chain efficiency, and enhance product quality.
Advanced Manufacturing Technology Adoption
The process of integrating new, innovative technologies into the manufacturing process. This can include the use of robotics, AI, 3D printing, and other technologies to enhance efficiency, quality, and customisation.
Artificial Intelligence (AI) in Manufacturing
In manufacturing, AI encompasses a wide range of technologies and methods, including robotics, machine learning algorithms, predictive analytics, and intelligent automation. These tools work together to enhance various aspects of the manufacturing process. AI is set to revolutionise manufacturing by offering predictive maintenance, real-time defect detection, process optimisation, and supply chain visibility. It also enables mass customisation, enhances workplace safety, and aligns manufacturing with sustainability goals.
Augmented Reality (AR) in Manufacturing
The integration of digital information with the user's environment in real time. Unlike VR, which creates a totally artificial environment, AR uses the existing environment and overlays new information on top of it.
B
Behavioural and Operational Changes
Changes in behaviour and operational practices to optimise energy use.
Big Data Analytics
The process of collecting, organising, and analysing large sets of data (big data) to discover patterns and other useful information. In manufacturing, it can be used to optimise production, predict maintenance needs, enhance supply chain efficiency, and more.
Blockchain in Manufacturing
Blockchain offers transparency, traceability, and security in manufacturing. It can automate processes through smart contracts, streamline inventory management, simplify compliance, and even optimise energy usage.
Business Travel
Emissions from employee travel for business purposes, including flights, train journeys, and other travel.
C
Capital Goods
Emissions related to the acquisition and production of capital goods like machinery and infrastructure.
Carbon Offsetting
Measures like reforestation and carbon capture to offset emissions when complete elimination is not feasible.
Carbon-neutral Manufacturing
The process of producing goods with no net carbon dioxide (CO2) emissions, involving reduction and offsetting.
Certifications and Standards
Certifications and standards for carbon-neutral manufacturing to demonstrate commitment to sustainability.
Certified COSIRI Assessor (CCA)
A training and certification programme provided by INCIT for individuals who assess sustainability maturity. The training provides the necessary knowledge and skills to effectively evaluate and play a part in driving green initiatives and sustainable transformation within organisations and manufacturers. See also: Consumer Sustainability Industry Readiness Index (COSIRI).
Circular Economy in Manufacturing
An alternative to a traditional linear economy (make, use, dispose). A circular economy is one where resources are used for as long as possible, thus extracting the maximum value from them while in use. Such resources are then recovered and regenerated into new products or raw materials at the end of their service life.
Clean Tech
Clean tech is not just about alternative energy; it encompasses a range of solutions aimed at environmental sustainability. This includes Carbon Capture and Storage (CCS), agriculture sustainability, waste management, and water purification.
Cloud Computing in Manufacturing
The delivery of various services over the internet, including data storage, servers, databases, networking, and software. In manufacturing, it allows for greater accessibility, scalability, and flexibility in operations.
CO2 Tax and Policy Gaps
CO2 Tax and Policy Gaps refer to the absence or inadequacy of regulations that account for the conversion of energy consumption (KWh) and water usage (qm) into equivalent CO2 emissions (kg CO2). These gaps can lead to incomplete environmental accounting and hinder sustainability efforts.
Collaborative Robots (Cobots)
Robots designed to work collaboratively with humans in a shared workspace. Unlike traditional robots, cobots are created with the intention of interacting with humans in a shared space or to work safely in close proximity.
Combustion of Fossil Fuels
This includes emissions from the combustion of fossil fuels on-site, such as natural gas for heating, diesel for backup generators, or gasoline for company vehicles.
Competitive Advantage
Companies that successfully implement IT/OT convergence can gain a competitive edge by being more agile, innovative, and responsive to market demands.
Competitive Landscape
Understanding competitive landscapes in different regions and choosing manufacturing locations strategically.
Complex Shapes and Patterns in Additive Manufacturing
The ability to create intricate designs through 3D printing that traditional methods cannot achieve. This allows for greater design freedom, customisation, and the ability to produce parts that were previously impossible or too costly to make.
Compliance and Reporting
It simplifies compliance and reporting by automating data collection and making it easier to generate reports required by regulatory authorities.
Compressed Manufacturing Cycles
The reduction in time from product conception to market, often driven by digital transformation. It allows for faster response to market demands, increased innovation, and improved efficiency.
Consumer and Industry Adoption
Widespread adoption of energy efficiency innovations by consumers and industries.
Consumer Sustainability Industry Readiness Index (COSIRI)
COSIRI, a neutral, independent sustainability framework to benchmark sustainability maturity of organisations.
Continuous Monitoring and Improvement
Continuously monitor your progress and make necessary adjustments as you go along. The SIRI Assessment should be a part of an ongoing process of improvement and adaptation to the evolving digital landscape. See also: Smart Industry Readiness Index (SIRI).
Corporate Social Responsibility (CSR)
Pursuing carbon neutrality as part of corporate social responsibility initiatives for reputation and compliance.
COSIRI Sustainability Prioritisation Index
The COSIRI Index is a comprehensive framework for assessing a company's sustainability performance. It offers a standardised measurement system that covers a broad spectrum of sustainability dimensions. The index helps companies focus on impactful aspects of sustainability, enables benchmarking, and encourages stakeholder engagement. See also: Consumer Sustainability Industry Readiness Index (COSIRI).
Cost Reduction
Energy efficiency innovations often lead to cost savings for organisations.
Cross-Sector Applications
Applicability of energy efficiency innovations across various sectors.
Cyber-physical Systems (CPS)
CPS integrate digital and physical components, playing a vital role in automation and optimisation in manufacturing. Challenges include cybersecurity risks, data management, real-time communication, and workforce training.
Cybersecurity in Manufacturing
The practice of protecting systems, networks, and data in manufacturing environments. It's essential for safeguarding intellectual property, personal data, and proprietary business information.
D
Dark Factories
Dark Factories are highly automated manufacturing facilities that operate with minimal or no human intervention. These factories are often capable of running continuously and are driven by technologies like robotics, AI, and the Industrial Internet of Things (IIoT).
Data and Monitoring
Using data-driven approaches and advanced monitoring systems for energy consumption control.
Data-driven Decision Making
The process of making informed choices based on the combined data from IT and OT systems.
Develop an Action Plan
A strategy based on assessment results to address identified weaknesses and opportunities, including setting specific goals, timelines, and resource allocation.
Digital Assurance and Quality Management
While both are essential in digital manufacturing, they serve different purposes. Quality management ensures the physical products meet standards, whereas digital assurance focuses on the digital components like software and data analytics tools.
Digital Manufacturing Architecture (DMA)
DMA is an integrated approach to designing efficient factory layouts. It leverages digital twins for simulation and focuses on resource allocation, waste reduction, and worker safety.
Digital Transformation
The process of integrating digital technologies into all areas of a business, fundamentally changing how the organisation operates and delivers value to its customers. In manufacturing, it often involves the use of technologies like IoT, AI, and analytics to transform operations.
Digital Twins
Digital Twin technology extends beyond production simulation to include design phase prototyping, real-time data monitoring, quality control, maintenance prediction, supply chain optimisation, and even training.
E
Edge Computing
An alternative to traditional cloud computing, edge computing processes data closer to its source, potentially reducing CO2 emissions. However, its environmental impact depends on various factors like energy efficiency and scale of deployment.
Electricity Emission
Emissions related to the electricity purchased or consumed by the organisation.
Employee Commuting
Emissions from employees commuting to and from work.
End-of-life Treatment of Sold Products
Emissions linked to the disposal and recycling of products after use.
Energy Efficiency in Manufacturing
The practice of using less energy to manufacture products, thereby reducing costs and environmental impact. It includes optimising energy use in production processes, improving energy management, and using energy-efficient technologies.
Energy Efficiency Innovations
Technologies, practices, or strategies to reduce energy consumption while maintaining or enhancing performance.
Enhanced Asset Management
IT/OT convergence enables better asset management and predictive maintenance. By analysing data from sensors and machinery, organisations can schedule maintenance proactively, reducing downtime and extending the life of equipment.
Environmental Benefits
Reducing greenhouse gas emissions and environmental impact through energy efficiency innovations.
Environmental, Social, and Governance (ESG)
A set of standards that socially conscious investors use to screen potential investments. In manufacturing, it refers to how a company performs as a steward of the natural environment, how it manages relationships with employees, suppliers, customers, and communities, and how it governs itself.
ESG Ratings
ESG ratings assess a company's performance in environmental, social, and governance factors. While they are crucial for transparency, they have limitations such as lack of standardisation, data quality issues, and potential biases. These ratings are used by various stakeholders to make informed decisions. See also: Environmental, Social, and Governance (ESG).
Exoskeleton in Manufacturing
Exoskeletons, also known as industrial exosuits or wearable robotics, are devices designed to assist and enhance the physical capabilities of workers in manufacturing environments. They help in reducing strain, improving posture, and enhancing worker safety.
F
Fair Trade Manufacturing
The practice of producing goods in a manner that adheres to ethical and sustainable principles. This includes ensuring fair wages, safe working conditions, and environmentally responsible practices. It often involves collaboration with small producers and marginalised communities to promote social and economic empowerment.
Fuel- and Energy-related Activities
Emissions from employee commuting, business travel, and product use, such as fuel consumption.
Fugitive Emissions
Emissions that unintentionally escape from facilities, such as leaks from pipelines or equipment.
G
Gather a Cross-functional Team
Forming a diverse team from various departments like IT, operations, production, and management for a comprehensive evaluation of readiness.
Generative Design and Topological Design
Both are techniques used in 3D printing. Generative design uses algorithms to explore design possibilities, while topological design focuses on optimising material distribution within a given space. Both aim to improve product performance and efficiency.
Geographic Locations
It specifies where a company’s manufacturing facilities, plants, or production sites are situated. These locations can be spread across various countries or regions to take advantage of different factors such as labour costs, access to raw materials, market proximity, and regulatory considerations.
GETIT
Global Executive Industry Talks (GETIT), a thought leadership platform where business leaders will have a stage to connect with like-minded specialists, experts and luminaries to discuss the latest developments in the industry.
Greenhouse Gas (GHG) Emissions in Manufacturing
GHG emissions in manufacturing are categorised into three main scopes: Scope 1, Scope 2, and Scope 3 emissions. These categories help organisations and industries understand and manage their greenhouse gas emissions comprehensively. Scope 1 emissions are direct emissions originating from the manufacturing facility. Scope 2 emissions are indirect emissions associated with purchased energy. Scope 3 emissions encompass a broader range of indirect emissions, including upstream and downstream processes.
GHG Scope 1, 2, and 3 Emissions
Categorisation of greenhouse gas emissions into three scopes for management and understanding. See also: Greenhouse Gas (GHG) Emissions in Manufacturing.
Global Manufacturing Footprint
A strategic framework outlining the geographic locations of a company's manufacturing operations worldwide, including considerations like production capacity, strategic objectives, supply chain integration, logistics, regulatory factors, market access, risk mitigation, and cost.
Granular Energy Platform
A Granular Energy Platform is a system that provides detailed insights, tools, and mechanisms to manage energy consumption and emissions. Supported by the right tax incentives and transition strategies, this platform can drive the adoption of clean technologies and foster sustainable energy practices.
Green Business Modelling
Green Business Modelling involves creating and implementing business strategies that prioritise environmental sustainability while maintaining profitability. It is becoming increasingly important for manufacturers due to growing consumer demand for eco-friendly products and stricter government regulations.
H
Heating, Cooling, and Steam
Emissions related to purchased heating, cooling, or steam used by the organisation.
I
Identify Improvement Areas
Using the SIRI Assessment to identify areas needing enhancement, such as technology adoption, workforce upskilling, process optimisation, or strategic realignment. See also: Smart Industry Readiness Index (SIRI).
Implementation
The process of executing the action plan, potentially involving new technologies, employee training, process reengineering, or business strategy adjustments.
Improved Efficiency and Productivity
The outcome of real-time data integration between IT and OT systems, leading to improved operational efficiency and productivity.
Increased Safety and Security
Enhanced measures achieved through the integration of IT and OT systems, including real-time monitoring and automated response to anomalies.
Industrial Automation
The use of various control systems for operating equipment in manufacturing plants, including machinery, processes in factories, boilers, switching on telephone networks, steering and stabilisation of ships, aircraft, and other applications.
Industrial Internet of Things (IIoT)
A sub-category of IoT, focusing specifically on the use of IoT technologies in industrial environments. It enables advanced connectivity and analytics in manufacturing, enhancing efficiency and innovation.
Industry 4.0
Refers to the Fourth Industrial Revolution, focusing on the use of modern smart technology in manufacturing environments. It includes the use of the Internet of Things (IoT), cloud computing, AI, and other technological advancements to create more interconnected and efficient manufacturing processes.
INNOSPHERE
INNOSPHERE is a solution-based open innovation platform designed for industries. It focuses on providing solutions to industry-specific challenges through INCIT’s prioritisation indexes. The platform invites innovators, startups, researchers, and other participants to submit solutions addressing these challenges. INNOSPHERE fosters collaboration between different stakeholders, catalyses innovation, and saves time and resources compared to in-house R&D efforts.
Innovation
The synergy between IT and OT can foster innovation by enabling the development of new technologies and applications that can transform business processes and create new revenue streams.
Innovation and Technology
Investing in innovative technologies to further reduce emissions in manufacturing processes.
Innovation Management
The systematic process of managing all the activities involved in the process of innovation. In manufacturing, it includes idea generation, collaboration, selection, development, commercialisation, and continuous monitoring and improvement.
Integration of Renewable Energy
Incorporating renewable energy sources to reduce reliance on fossil fuels.
Internet of Things (IoT)
In manufacturing, IoT refers to the network of physical devices, vehicles, and other items embedded with sensors, software, and network connectivity. These devices collect and exchange data, allowing for more intelligent decision-making in manufacturing processes.
Interoperability in Industry 4.0
A significant challenge in Industry 4.0, interoperability refers to the ability of different systems and technologies to work seamlessly together. It requires a multi-faceted approach, including the development of industry standards, middleware solutions, and robust security measures.
Intra-logistics in Smart Factories
Intra-logistics involves the internal movement of goods and materials within a factory. In smart factories, it employs technologies like automated guided vehicles and robotics to optimise material flow, reduce bottlenecks, and improve overall efficiency.
IT/OT Convergence
IT/OT convergence, the integration of Information Technology (IT) and Operational Technology (OT) in industrial and manufacturing sectors to create a unified technology ecosystem.
L
Lean Manufacturing
A systematic method for waste minimisation within a manufacturing system without sacrificing productivity. Lean methodologies consider waste created through overburden and waste created through unevenness in workloads.
Leased Assets
Emissions related to the use of leased assets.
Life Cycle Considerations
Considering energy efficiency optimisation throughout the product or process life cycle.
Logistics and Transportation
The footprint considers transportation and logistics networks that connect manufacturing sites with suppliers and distribution centres. This can impact the efficiency and cost-effectiveness of the overall supply chain.
M
Machine Learning
A subset of AI that provides systems the ability to automatically learn and improve from experience without being explicitly programmed. Beyond pattern recognition, machine learning encompasses predictive analytics, anomaly detection, data classification, and natural language processing. It powers recommendation systems, clustering algorithms, and reinforcement learning.
Maintaining or Enhancing Performance
Innovations aim to improve performance while using less energy.
Manufacturing Execution System (MES)
A computerised system used in manufacturing to track and document the transformation of raw materials into finished goods. It provides real-time control and visibility over the manufacturing process, helping to ensure quality and efficiency.
ManuVate
ManuVate, A collaborative platform developed by INCIT to accelerate the global momentum of innovations towards Industry 4.0 for manufacturers worldwide, based on robust collaboration between “Challengers-Seekers” and “Solvers-ManuVators”.
Monitoring and Reporting
Accurate measurement, monitoring, and reporting of emissions for tracking progress toward carbon neutrality.
O
Operating Technologies (OT) Cyber Security
OT Cyber Security for manufacturing sites is crucial for ensuring the safety and reliability of industrial processes. It involves various measures such as network segmentation, strong access controls, regular updates, intrusion detection systems, and continuous monitoring. Employee training and well-defined incident response plans are also essential components.
Overall Equipment Efficiency (OEE)
OEE is a metric that measures the effectiveness of equipment and processes in manufacturing. It considers availability, performance, and quality to provide insights into operational efficiency, guiding targeted and effective investments.
P
Policy Gaps in Sustainability
Policy gaps refer to the absence or inadequacy of supportive policies, regulations, and incentives that facilitate the transition to sustainable practices. These gaps can be a threat to manufacturers aiming for Net Zero emissions, as they may lack the guidance or financial incentives to make necessary changes.
Predictive Maintenance
Utilises data analysis, statistics, machine learning, and modelling to predict when equipment failure might occur. This approach enables timely maintenance, preventing unexpected equipment failures and reducing maintenance costs.
Prioritisation Indexes of INCIT
INCIT's Prioritisation Indexes offer a 4-in-1 tool for maturity assessment, automatic prioritised road mapping, rating, and transformation. These indexes are particularly useful for ESG maturity assessments, helping organisations understand their current status and areas for improvement.
Process Emissions
Emissions resulting from specific processes or activities within the organisation, such as manufacturing.
Product circularity
Product circularity is a fundamental concept within the framework of a circular economy. It refers to the design, production, use, and end-of-life stages of products in a way that aims to maximise their lifespan, minimise waste, and promote a more sustainable economic model. The goal is to create a closed-loop system where products are continuously reused, refurbished, remanufactured, and recycled.
Production Capacity
The footprint outlines the production capacity and capabilities of each manufacturing facility, including the types of products or components they produce and the volume they can handle.
Purchased Goods and Services
Emissions from the production of materials, goods, or services purchased by the organisation.
Q
Quality Management Systems (QMS)
A formalised system that documents processes, procedures, and responsibilities for achieving quality policies and objectives. It helps coordinate and direct an organisation’s activities to meet customer and regulatory requirements and improve its effectiveness and efficiency.
Quantum Communication
Quantum Communication is a method of secure communication that leverages the principles of quantum mechanics. It uses phenomena like quantum entanglement and quantum key distribution (QKD) to create cryptographic keys that are fundamentally secure against interception.
R
Real-time Analytics
The use of IT/OT convergence for immediate data analysis and machine learning applications.
Reducing Emissions
Achieving carbon-neutral manufacturing through energy-efficient technologies and waste minimisation.
Reduction of Energy Consumption
The primary goal of energy efficiency innovations is to significantly reduce energy use.
Regulation and Compliance Factors
Companies must consider local and international regulations and compliance requirements in each manufacturing location. This includes environmental regulations, labour laws, trade agreements, and safety standards.
Regulatory Compliance
Compliance with regulatory requirements and standards for energy efficiency.
Remote Monitoring and Management
The ability to oversee and manage industrial processes remotely, a feature of IT/OT convergence.
Report and Share Results
Sharing the results and progress of the SIRI Assessment with stakeholders within the organisation, emphasising transparency and communication.
Research and Development
Ongoing research and development efforts to drive energy efficiency innovations.
Reshoring
The practice of bringing manufacturing and services back to the home country from overseas. It's the reverse of offshoring and can strengthen a country's economy by providing jobs and building skills at home.
Robotics in Manufacturing
Refers to the use of robots to perform tasks that are either dangerous or repetitive. Robotics in manufacturing can increase efficiency, accuracy, and consistency, while also allowing human workers to focus on more complex tasks.
S
Scalability
The ability of IT/OT systems to adapt and expand with organisational growth or changing needs.
Scope 2 Emissions
Indirect emissions associated with purchased electricity, steam, heating, or cooling.
Scope 3 Emissions
Complex, indirect emissions resulting from activities outside the organisation’s control, including value chain.
SIRI Self-assessment
Using the SIRI framework to conduct an internal evaluation across dimensions like strategy, technology, processes, and people. See also: Smart Industry Readiness Index (SIRI).
Smart Factory Design
This involves creating digitally advanced manufacturing facilities. The Smart Industry Readiness Index (SIR) can assess a facility’s preparedness for such a transformation, focusing on automation, data-driven decision-making, and human-machine collaboration.
Smart Industry Readiness Index
A framework developed to help companies assess their readiness for Industry 4.0 or the "Smart Industry."
Smart Industry Readiness Index (SIRI)
SIRI, a framework that helps manufacturers, both large and small, to evaluate their readiness for transformation. It provides a comprehensive understanding of a company's current level of technological sophistication, adoption, and overall readiness for Industry 4.0.
Smart Industry Readiness Index (SIRI) Assessment
A framework to help companies assess their readiness for Industry 4.0, focusing on evaluating maturity in adopting smart technologies and processes. See also: Smart Industry Readiness Index (SIRI).
Smart Manufacturing
A broad category that includes the use of advanced technologies to enhance manufacturing processes. It involves the integration of various technologies, data analytics, and human ingenuity to improve manufacturing, production speed, product quality, and overall efficiency.
Solar Photovoltaic Systems
Solar panels as an example of sustainable technology, converting sunlight into clean electricity.
Star Rating Score and Benchmark
Generating a score post-assessment to reflect current readiness and comparing it with global benchmarks to gauge industry standard alignment.
Supply Chain Digitalisation
Supply chain digitalisation is rapidly evolving with several innovative technologies on the horizon. These technologies range from blockchain and IoT devices to AI and machine learning. They aim to enhance transparency, traceability, and efficiency in supply chain management.
Supply Chain Integration
It encompasses the integration of manufacturing facilities into the broader supply chain. This includes the coordination of production, logistics, distribution, and inventory management to ensure seamless operations.
Supply Chain Optimisation
Optimising supply chains by choosing local suppliers, reducing transportation, and selecting low-carbon materials.
Supply Chain Resilience
Supply chain resilience originally means preparing for, and recovering from, disruptions in the supply chain. The goal is to ensure continuity of operations even in the face of unexpected events. The concept has evolved to include discussions about “reshoring”, “nearshoring”, and “onshoring”, which involve bringing production closer to the point of consumption to enhance resilience.
Sustainability
The practice of reducing energy consumption and waste, contributing to environmental goals, facilitated by IT/OT convergence.
Sustainability and Environmental Impact
Companies considering the environmental impact of manufacturing operations and sustainability goals.
Sustainability and Recycling
Implementing sustainable practices, including recycling and waste reduction, to reduce emissions.
Sustainability in Manufacturing
The practice of creating manufactured products through economically-sound processes that minimise negative environmental impacts while conserving energy and natural resources. It also considers the well-being of society and the economy.
Sustainable Operating Systems
These are engineered to be energy-efficient, optimising resource usage and reducing greenhouse gas emissions. They can work seamlessly with renewable energy sources and offer built-in tools for emission tracking.
Sustainable Solutions
In manufacturing, this refers to the development and implementation of processes and practices that reduce negative environmental impacts, enhance social responsibility, and improve economic performance, all while meeting the demands of the present without compromising the future.
Sustainable Technology
Development and use of technologies with minimal environmental impact for long-term sustainability.
Sustainable Water Treatment in Manufacturing
The intelligent and sustainable use of water resources in manufacturing processes. This includes the treatment and reuse of water, reducing consumption, and complying with environmental regulations.
Scope 1 Emissions
Direct emissions originating from the manufacturing facility.
T
Technological Advancements
Energy efficiency innovations often rely on technological advancements.
Technology and Innovation
Consideration of access to technology and innovation hubs for product development and process improvement.
U
Understand the Purpose
The initial step in a SIRI Assessment, involving understanding the reasons for undertaking the assessment, such as improving competitiveness or enhancing digital capabilities.
Upstream Transportation and Distribution
Emissions associated with transporting materials, products, and services to and from the organisation.
Use of Sold Products
Emissions resulting from the use of products or services sold by the organisation.
V
Vertical Integration – IT meets OT
This refers to the integration of IT and OT in an organisation. It enables better data sharing, communication, and coordination, leading to improved decision-making and process optimisation.
Virtual Reality (VR) in Manufacturing
The use of simulated, three-dimensional environments that can simulate physical presence in real or imagined worlds. In manufacturing, it can be used for training, design, and enhancing collaboration.
W
Waste Generated in Operations
Emissions associated with waste disposal and treatment during the organisation’s operations.
X
XIRI Analytics
XIRI Analytics is a tool that provides data-driven insights to various stakeholders, including governments, equity companies, financial institutions, and public companies. It facilitates informed decisions regarding transformation processes like ESG (Environmental, Social, and Governance) and digital transformation. The tool offers benchmarking capabilities, risk assessments, and scenario analyses, enabling effective planning and resource allocation.