Key Information Technology Standards for AI Quality and Electrical Safety: A Comprehensive Guide

In the fast-paced environment of modern organizations, the adoption of international standards in information technology is a defining factor for sustained growth, operational excellence, and resilience. Whether developing artificial intelligence solutions, managing complex electrical installations, or ensuring electrical safety, businesses are confronted with an array of challenges where consistency, security, and trust are paramount. This guide explores three foundational standards: the AI-focused quality model SIST EN ISO/IEC 25059:2024, SIST IEC 60050-195:2024 for earthing and protection against electric shock, and SIST IEC 60050-826:2023 concerning electrical installation terminology. Understanding and implementing these standards isn't just about compliance—it's about unlocking higher productivity, robust security, and scalable enterprise solutions, keeping organizations ahead in an ever-changing sector.

Overview / Introduction

The information technology sector is at the core of business transformation, innovation, and competitiveness. With the proliferation of artificial intelligence, connected devices, and complex power systems, the stakes for managing technology risks and quality have never been higher. International standards provide organizations with a trusted framework for excellence, enabling consistent terminology, reliable processes, heightened security, and optimal scaling.

In this article, we'll break down three critical IT standards:

• SIST EN ISO/IEC 25059:2024 – Delivers a holistic quality model for AI systems, crucial for organizations developing or using artificial intelligence.
• SIST IEC 60050-195:2024 – Defines essential vocabulary for earthing and protection against electric shock, supporting safer electrical environments.
• SIST IEC 60050-826:2023 – Outlines standard terms for electrical installations, fostering clear communication and unified practices in residential, industrial, and commercial settings.

By the end, you'll appreciate how these standards not only ensure regulatory compliance, but also significantly improve productivity, IT security, and the scalability of your operations.

Detailed Standards Coverage

SIST EN ISO/IEC 25059:2024 - Quality Model for AI Systems

Software engineering – Systems and software Quality Requirements and Evaluation (SQuaRE) – Quality model for AI systems (ISO/IEC 25059:2023)

As artificial intelligence (AI) systems become increasingly central to business strategy, a dedicated quality framework is vital. SIST EN ISO/IEC 25059:2024 extends the internationally recognized SQuaRE standards to meet the unique properties of AI-enabled software products. This standard defines a comprehensive quality model specifically for AI systems, providing organizations with a consistent terminology and methodology to specify, measure, and evaluate AI quality.

The scope includes both product quality and quality-in-use perspectives, encoding requirements such as transparency, user controllability, robustness, and societal and ethical risk mitigation—the very characteristics that differentiate AI systems from conventional software.

Organizations developing, procuring, or operating AI solutions—across industries like finance, healthcare, manufacturing, public sector, and beyond—are the primary audience. Bringing structure and measurable criteria to AI quality, it helps stakeholders:

• Compare stated quality requirements for completeness.
• Evaluate trustworthiness and ethical risks.
• Improve user and stakeholder confidence.

To implement the model, organizations need to assess both functional characteristics (correctness, adaptability, intervenability) and ethical/societal considerations, ensuring their AI applications are effective, safe, and aligned with stakeholder interests.

Key highlights:

• Models both internal (product) and external (usage) dimensions of AI quality.
• Introduces new sub-characteristics: user controllability, transparency, intervenability, robustness, and risk mitigation.
• Provides the foundation for risk-based assessment and regulatory alignment.

Access the full standard:View SIST EN ISO/IEC 25059:2024 on iTeh Standards

SIST IEC 60050-195:2024 - Earthing and Protection Against Electric Shock

International Electrotechnical Vocabulary (IEV) - Part 195: Earthing and protection against electric shock

In any digital or physical infrastructure, nothing matters more than safety. SIST IEC 60050-195:2024 establishes the definitive international terminology for earthing (grounding) and electric shock protection. Fundamentally, it defines hundreds of terms and concepts crucial for safe design, construction, operation, and maintenance of electrical installations.

This standard acts as a horizontal reference—meaning its vocabulary serves as a baseline for all other standards and technical documents concerning electrical safety worldwide. Updates in this edition align closely with the latest IEC safety standards (like IEC 61140), ensuring that technical teams, auditors, and regulatory bodies are on the same page.

Industries that design, install, and maintain electrical systems—including construction, manufacturing, energy, IT infrastructure, and data centers—must use this vocabulary to:

• Reduce the risk of electrical incidents.
• Ensure compliance across multi-national teams and suppliers.
• Satisfy health and worker safety regulations.

In practice, adopting a shared language around concepts such as reference earth, electric contact, conductive part, and protection measures is foundational. It minimizes misunderstandings that could lead to hazards, downtime, or legal exposure.

Key highlights:

• Provides a common, multilingual terminology for all aspects of earthing and electric shock protection.
• Ensures technical alignment across regulatory, operational, and engineering teams globally.
• Forms the basis for conformity assessment and incident analysis.

Access the full standard:View SIST IEC 60050-195:2024 on iTeh Standards

SIST IEC 60050-826:2023 - Electrical Installations Vocabulary

International Electrotechnical Vocabulary (IEV) - Part 826: Electrical installations

A shared understanding of terminology is essential for the planning, design, and maintenance of electrical systems. SIST IEC 60050-826:2023 provides the most up-to-date vocabulary for all aspects of electrical installations in homes, offices, industrial complexes, and commercial buildings. Covering general terms, characteristics, voltages and currents, protective measures, earthing and bonding, circuits, wiring systems, and smart grid concepts, this standard enables seamless cross-disciplinary dialogue.

Based solidly on IEC 61140 compliance and incorporating recent advances from IEC 60364, the vocabulary keeps pace with technological progress—from classic wiring methods to smart energy management and the integration of energy efficiency requirements. It is a reference for everyone involved throughout an installation’s lifecycle:

• Architects and electrical engineers.
• Facility managers and IT infrastructure specialists.
• Regulators, safety inspectors, and technical trainers.

Adopting a uniform vocabulary eliminates ambiguous instructions, reduces costly errors, and simplifies interoperability between systems and teams, especially in complex or international projects.

Key highlights:

• Encompasses definitions covering the structure, characteristics, and protection of electrical installations.
• Integrates energy efficiency and smart grid terminology for modern installations.
• Acts as a horizontal publication—used by other IEC technical committees in standardizing further publications.

Access the full standard:View SIST IEC 60050-826:2023 on iTeh Standards

Industry Impact & Compliance

Implementing international IT standards offers more than compliance—it sets the stage for transformation in every industry. For businesses and public organizations, the standards highlighted above ensure:

• Productivity gains: Clearly defined quality models speed up development, troubleshooting, and scaling of digital and electrical solutions. Using standardized terms enables faster training and onboarding.
• Security and safety improvements: Alignment with globally vetted terminology and requirements ensures that safety and risk mitigation are built-in from the start, protecting people, systems, and assets.
• Regulatory and legal compliance: As regulations become more stringent, especially around AI ethics and electrical safety, adhering to standards helps organizations avoid costly fines, regulatory actions, and reputational damage.
• Scalability and international reach: Standards enable seamless integration between business units, partners, and supply chains. Whether scaling AI across regions or managing new facilities, compatibility and shared language accelerate rollout and interoperability.
• Trust and market confidence: Being certified or compliant increases confidence among partners, customers, and stakeholders—crucial for contract bids, investment, and buy-in from non-technical decision-makers.

Failing to comply carries risks:

• Increased downtime and operational inefficiencies
• Legal liabilities in the event of incidents
• Inhibited innovation due to fragmented processes and unclear requirements
• Reputational harm from non-conformance or safety failures

Implementation Guidance

Common Implementation Approaches

Organizations seeking to implement these standards should consider the following high-impact approaches:

1. Assessment and Gap Analysis:

   • Benchmark current practices, processes, and vocabulary against the requirements in the relevant standard(s).
   • Identify areas where present terminology, processes, or controls diverge from standard recommendations.

2. Policy and Process Updates:

   • Update internal policies to reflect new controls, quality attributes, and terminology.
   • Integrate required vocabularies into technical documentation, procurement contracts, and training materials.

3. Training and Awareness:

   • Conduct regular training sessions for staff at all levels, ensuring shared understanding of key concepts.
   • Leverage multilingual resources where relevant.

4. Technology and Tools:

   • Implement measurement and evaluation tools for AI system quality.
   • Use network design and modeling tools that align with standard vocabularies for electrical installations and safety.

5. Continuous Improvement:

   • Establish feedback loops and performance reviews.
   • Monitor for updates to standards and adjust policies and controls accordingly.

Best Practices

• Collaborate with cross-functional teams—AI developers, electrical engineers, compliance officers, and end users—to ensure comprehensive adoption.
• Stay informed about updates and revisions; international standards bodies regularly update requirements in response to technology changes and incidents.
• Use standard-backed approaches as a way to differentiate in competitive markets and provide assurance to customers and partners.
• Develop a certification roadmap where formal third-party audit or attestation is required.

Resources

• Official training material from standardization bodies.
• Consulting with accredited experts or organizations.
• Online glossaries and technical references, such as the IEC’s Electropedia or ISO’s online platforms.
• Peer networks and industry groups sharing implementation experiences.

Conclusion / Next Steps

Embracing internationally recognized standards is a strategic imperative for organizations aiming to lead in efficiency, safety, and digital innovation. SIST EN ISO/IEC 25059:2024 secures the quality and trustworthiness of AI systems; SIST IEC 60050-195:2024 and SIST IEC 60050-826:2023 establish a consistent, global vocabulary for electrical safety and installations. Their combined adoption enhances operational coherence, risk management, and long-term business viability.

Organizations should:

• Begin by assessing current gaps against these standards.
• Update internal controls, policies, and training accordingly.
• Seek out full, authorized text and consultation if deeper technical alignment or formal certification is needed.
• Make ongoing adherence a cornerstone of technology strategy—as the pace of digital transformation, AI adoption, and infrastructure complexity only increases.

By leveraging these standards, businesses not only ensure compliance but unlock maximum value—driving productivity, scaling confidently, and building the trust needed to thrive in the global economy.

Explore the latest standards and implementation resources at iTeh Standards, your trusted platform for international compliance and best practices.

https://standards.iteh.ai/catalog/standards/sist/99611b6e-6e15-45a1-8a1c-2d5863996c68/sist-en-iso-iec-25059-2024https://standards.iteh.ai/catalog/standards/sist/1bb77c6c-f2ba-466c-b15d-d7a392b9bde2/sist-iec-60050-195-2024https://standards.iteh.ai/catalog/standards/sist/159199c4-c38c-46ef-9637-eb8341d0d10e/sist-iec-60050-826-2023