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Enhancing Cyber Defense in Manufacturing: The NIST Cybersecurity Framework as a Solution

NIST Cybersecurity Framework

The manufacturing industry has seen a digital transformation with the implementation of IoT and various automation technologies, resulting in improved efficiency and productivity. However, this also brings cybersecurity risks, making compliance with the relevant standards essential to protect the industry from cyber-attacks. A significant number of manufacturing companies have experienced cybersecurity incidents, highlighting the importance of frameworks like the NIST CSF.

Cybersecurity Risks in the Manufacturing Industry

Below are some of the most notable cybersecurity risks faced by the manufacturing industry:

Ransomware Attacks: Manufacturing companies are increasingly vulnerable to ransomware attacks, which can severely disrupt operations and result in significant financial harm. To protect themselves, manufacturers should implement robust access controls, frequent data backups, and training programs for employees.

Supply Chain Attacks: Due to the intricate network of partners and suppliers involved in the manufacturing sector, supply chain attacks pose a potential threat. These attacks occur when cyber criminals target and compromise a partner or supplier to gain access to a manufacturer’s systems, causing significant damage. To safeguard against such attacks, manufacturers should regularly assess the cybersecurity practices of their partners and suppliers, implement stringent access controls, and stay vigilant for any signs of compromised systems.

Social Engineering Techniques: Cyber criminals are using advanced social engineering tactics to trick employees into giving out important information or installing harmful software. Manufacturers need to develop strong security training programs, provide regular simulated phishing scenarios, and promote a culture of security awareness to avoid becoming victims of these tactics.

IoT Vulnerabilities: Manufacturers are increasingly using the Internet of Things (IoT) to improve efficiency, but this also exposes them to new cybersecurity risks. Cybercriminals can exploit weaknesses in connected devices to breach a manufacturer’s network and carry out a denial-of-service attack. To protect against these vulnerabilities, manufacturers should establish strong device management policies, regularly scan for system weaknesses, and promptly install security updates and upgrades.

Insider Threats: Insider attacks, which can involve intentional or unintentional harm to a company’s systems or data, pose a significant danger to manufacturers. To mitigate the risk of insider threats in the manufacturing sector, companies should implement stringent access controls, conduct thorough background checks on new employees, and closely monitor employee behaviors.

Implementing the NIST Framework in Manufacturing

Below are some tips to help manufacturers implement the NIST CSF:

Evaluate the Existing State of Cybersecurity

The initial phase involves evaluating the current state of cybersecurity within the manufacturing company. This process includes:

  • Identifying crucial assets, systems, and data.
  • Assessing the effectiveness of the current cybersecurity controls and protocols.
  • Identifying vulnerabilities and opportunities for enhancement.
  • Evaluating employee knowledge and training.
  • Examining protocols for responding to incidents.
  • Taking into account regulatory compliance obligations.
  • Reviewing relationships with third-party entities.

Understand and Prioritize the Biggest Risks

Manufacturers should determine and give priority to the cybersecurity risks that are most relevant to their operations. Begin by identifying the risks present within the company. This can be achieved by evaluating the probability and impact of various threats, such as ransomware attacks, insider threats, or supply chain attacks. Then, rank each risk according to the level of threat and significance. Prioritizing the risks entails considering the potential outcomes of a successful cyber-attack on vital systems or data. It is essential for manufacturers to prioritize risks based on their effect on the business and align them with their risk management strategy.

Align Existing Controls to NIST CSF Categories

To identify any security gaps or areas that require improvement, it is important for manufacturers to analyze their current cybersecurity controls and match them with the relevant categories and subcategories of the NIST CSF framework. The key categories for manufacturers to focus on include Identify, Detect, Respond, and Recover. Once the mapping is complete, manufacturers should develop a roadmap that outlines the steps, timeline, and responsible parties for achieving compliance with the framework. This roadmap should be aligned with the company’s overall cybersecurity strategy, budget, and operational priorities, and should include specific actions and milestones for tracking progress.

Implement, Monitor and Document

To achieve compliance with the NIST Cybersecurity Framework, manufacturers must implement and monitor cybersecurity controls. This involves measures such as network segmentation, access controls, encryption, and pen-testing tools. It is also important to develop policies, procedures, and training programs to increase cybersecurity awareness among employees and contractors. Documentation and communication are also critical for compliance. Detailed records of cybersecurity controls, policies, procedures, and incident response plans serve as evidence of compliance and demonstrate due diligence. It is also important to communicate cybersecurity policies and expectations to stakeholders for a consistent outcome.

Securing Supply Chains and Critical Infrastructure

The National Institute of Standards and Technology has released an update to its cybersecurity supply chain risk management guide to help organizations protect themselves when acquiring and using technology products and services. Supply chains, which connect manufacturers and service providers worldwide, pose a risk due to the multiple sources of components and software used in finished products. These products may contain malicious software or be susceptible to cyberattacks, and the vulnerability of the supply chain itself can impact businesses and their bottom line. The revised guidance focuses on acquirers and end users of products, software, and services, helping them integrate cybersecurity supply chain risk considerations into their acquisition processes and emphasizing the importance of risk monitoring. Below are some general tips to help secure supply chains and critical infrastructure:

  • Implement rigorous vetting processes for suppliers and vendors to ensure their reliability and trustworthiness.
  • Enhance cybersecurity measures by establishing secure firewalls, regularly updating software, and implementing encryption measures.
  • Conduct regular risk assessments to identify vulnerabilities and weak points in the supply chain or critical infrastructure.
  • Develop contingency plans and backup systems to ensure continuous operation in the event of disruptions or attacks.
  • Increase collaboration and information sharing with relevant government agencies, industry associations, and international partners to stay updated on emerging threats and best practices.
  • Promote a culture of security within the organization through training programs, regular audits, and employee awareness campaigns.
  • Implement strict access controls and monitoring systems to prevent unauthorized access to critical infrastructure facilities or sensitive data.
  • Conduct regular audits and compliance checks to ensure adherence to security standards and regulations.
  • Enhance physical security measures, such as surveillance systems, access controls, and perimeter protection, to protect critical infrastructure sites from physical attacks.
  • Establish incident response plans to swiftly and effectively respond to cybersecurity incidents or other disruptions within the supply chain or critical infrastructure.

Protecting Intellectual Property and Trade Secrets

Manufacturers face the risk of cyber-criminals and industry competitors stealing their intellectual property. Cyber-criminals use hacking, phishing, and malware to exploit and blackmail businesses, while competitors may resort to unethical practices like bribing employees. Recent developments such as cloud computing and remote work have increased the vulnerability of sensitive data. To protect their intellectual property and trade secrets, businesses must implement strong security measures, which include:

  • Implementing strong passwords and authentication protocols for accessing sensitive information
  • Encrypting data during storage and transmission to prevent unauthorized interception
  • Establishing strict access control mechanisms, granting permission on a need-to-know basis
  • Regularly updating software and operating systems to safeguard against vulnerabilities that could be exploited by hackers
  • Conducting regular security audits to identify any weaknesses in the existing system and address them promptly
  • Training employees on data security best practices, such as recognizing phishing attempts and avoiding suspicious websites
  • Restricting physical access to areas or devices where trade secrets are kept and require the use of secure storage techniques
  • Creating non-disclosure agreements (NDAs) for employees, contractors, and business partners to protect confidential information
  • Monitoring network activity and implement intrusion detection systems to promptly detect and respond to any unauthorized access attempts.

If you’d like to see how the Lepide Data Security Platform can help to bolster your cybersecurity posture, schedule a demo with one of our engineers.