Business continuity planning (BCP) “identifies [an] organization's exposure to internal and external threats and synthesizes hard and soft assets to provide effective prevention and recovery for the organization, whilst maintaining competitive advantage and value system integrity”.[1] It is also called business continuity and resiliency planning (BCRP). A business continuity plan is a roadmap for continuing operations under adverse conditions (i.e. interruption from natural or man-made hazards). BCP is an ongoing state or methodology governing how business is conducted. In the US, governmental entities refer to the process as continuity of operations planning (COOP).
BCP is working out how to continue operations under adverse conditions that include local events like building fires, theft, and vandalism, regional incidents like earthquakes and floods, and national incidents like pandemic illnesses. In fact, any event that could impact operations should be considered, such as supply chain interruption, loss of or damage to critical infrastructure (major machinery or computing/network resource). As such, risk management must be incorporated as part of BCP.
BCP may be a part of an organizational learning effort that helps reduce operational risk. Backup plan to run any business event uninterrupted is a part of business continuity plan. BCP for specified organization is to be implemented for the organizational level in large scale however backup plan at individual level is to be implemented at small unit scale. Organizational management team is accountable for large scale BCP for any particular firm while respective individual management team is accountable for their BCP at small unit scale. This process may be integrated with improving security and corporate reputation risk management practices.
In December 2006, the British Standards Institution (BSI) released a new independent standard for BCP — BS 25999-1. Prior to the introduction of BS 25999, BCP professionals relied on BSI information security standard BS 7799, which only peripherally addressed BCP to improve an organization's information security compliance. BS 25999's applicability extends to organizations of all types, sizes, and missions whether governmental or private, profit or non-profit, large or small, or industry sector.
In 2007, the BSI published the second part, BS 25999-2 "Specification for Business Continuity Management", that specifies requirements for implementing, operating and improving a documented business continuity management system (BCMS).
In 2004, the United Kingdom enacted the Civil Contingencies Act 2004, a statute that instructs all emergency services and local authorities to actively prepare and plan for emergencies. Local authorities also have the legal obligation under this act to actively lead promotion of business continuity practices in their respective geographical areas.
– Identification of top risks and mitigating strategies. – Considerations for resource reallocation e.g. skills matrix for larger organizations.
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The analysis phase is used in the development of a BCP manual consists of an impact analysis, threat analysis, and impact scenarios with the resulting BCP plan requirement documentation.
An impact analysis results in the differentiation between critical (urgent) and non-critical (non-urgent) organization functions/ activities. A function may be considered critical if the implications for stakeholders of damage to the organization resulting are regarded as unacceptable. Perceptions of the acceptability of disruption may be modified by the cost of establishing and maintaining appropriate business or technical recovery solutions. A function may also be considered critical if dictated by law. For each critical (in scope) function, two values are then assigned:
The recovery point objective must ensure that the maximum tolerable data loss for each activity is not exceeded. The Recovery Time Objective must ensure that the Maximum Tolerable Period of Disruption (MTPD) for each activity is not exceeded.
Next, the impact analysis results in the recovery requirements for each critical function. Recovery requirements consist of the following information:
After defining recovery requirements, documenting potential threats is recommended to detail a specific disaster’s unique recovery steps. Some common threats include the following:
All threats in the examples above share a common impact: the potential of damage to organizational infrastructure – except one (disease). The impact of diseases can be regarded as purely human, and may be alleviated with technical and business solutions. However, if the humans behind these recovery plans are also affected by the disease, then the process can fall down. During the 2002–2003 SARS outbreak, some organizations grouped staff into separate teams, and rotated the teams between the primary and secondary work sites, with a rotation frequency equal to the incubation period of the disease. The organizations also banned face-to-face contact between opposing team members during business and non-business hours. With such a split, organizations increased their resiliency against the threat of government-ordered quarantine measures if one person in a team contracted or was exposed to the disease. Damage from flooding also has a unique characteristic. If an office environment is flooded with non-salinated and contamination-free water (e.g., in the event of a pipe burst), equipment can be thoroughly dried and may still be functional.
After defining potential threats, documenting the impact scenarios that form the basis of the business recovery plan is recommended. In general, planning for the most wide-reaching disaster or disturbance is preferable to planning for a smaller scale problem, as almost all smaller scale problems are partial elements of larger disasters. A typical impact scenario like 'building loss' will most likely encompass all critical business functions, and the worst potential outcome from any potential threat. A business continuity plan may also document additional impact scenarios if an organization has more than one building. Other more specific impact scenarios – for example a scenario for the temporary or permanent loss of a specific floor in a building – may also be documented. Organizations sometimes underestimate the space necessary to make a move from one venue to another. It is imperative that organizations consider this in the planning phase so they do not have a problem when making the move.
After the completion of the analysis phase, the business and technical plan requirements are documented in order to commence the Solutions design phase. A good asset management program can be of great assistance here and allow for quick identification of available and re-allocatable resources. For an office-based, IT intensive business, the plan requirements may cover the following elements which may be classed as ICE (In Case of Emergency) Data:
Other business environments, such as production, distribution, warehousing etc. will need to cover these elements, but are likely to have additional issues to manage following a disruptive event.
The goal of the solution design phase is to identify the most cost effective disaster recovery solution that meets two main requirements from the impact analysis stage. For IT applications, this is commonly expressed as:
Disaster recovery plans may also be required outside the IT applications domain, for example in preservation of information in hard copy format, loss of skill staff management, or restoration of embedded technology in process plant. This BCP phase overlaps with disaster recovery planning methodology. The solution phase determines:
The implementation phase, quite simply, is the execution of the design elements identified in the solution design phase. Work package testing may take place during the implementation of the solution, however; work package testing does not take the place of organizational testing.
The purpose of testing is to achieve organizational acceptance that the business continuity solution satisfies the organization's recovery requirements. Plans may fail to meet expectations due to insufficient or inaccurate recovery requirements, solution design flaws, or solution implementation errors. Testing may include:
At minimum, testing is generally conducted on a biannual or annual schedule. Problems identified in the initial testing phase may be rolled up into the maintenance phase and retested during the next test cycle.
In the 2008 book Exercising for Excellence, published by The British Standards Institution the authors, Crisis Solutions, identified three types of exercise that can be employed when testing business continuity plans.
Simple exercises A simple exercise is often called a ‘desktop’ or ‘workshop’. It typically involves a small number of people, perhaps 5–20, and concentrates on a specific aspect of a business continuity plan or a specific subject area. (For example, Human Resources, Information Technology or Media) However, the beauty of a Simple exercise is that it can easily accommodate complete teams from various areas of a business. The numbers may increase and with it the logistics but the objectives will remain the same. Alternatively it could involve a single representative from several teams rather than needing the whole team to attend. It will seldom involve the provision of a Virtual World environment or the need for other than everyday resources. Typically, participants will be given a simple scenario and then be invited to discuss specific aspects of a company’s BCP. For example, a fire is discovered out of working hours – what are the current call out procedures – how is the incident management team activated – where does it meet – do the current documented procedures cover all eventualities? It will probably last no more than three hours and is often split into two or three sessions, each concentrating on a different theme. In this case either two or three different scenarios can be used or one scenario can be progressively developed to introduce themes that need to be addressed. Real time pressure is not usually an element of Simple exercises. Questions will need to be crafted ahead of time so that facilitators ensure discussions are productive and germane to the objectives of the event.
Medium exercises A medium exercise will invariably be conducted within a Virtual World and will usually bring together several departments, teams or disciplines. It will typically concentrate on more than one aspect of the BCP prompting interaction between teams. The scope of a medium exercise can range from a small number of teams from one organisation being co-located in one building to multiple teams operating from dispersed locations. Attempts should be made to create as realistic an environment as practicable and the numbers of participants should reflect a realistic situation. Depending on the degree of realism required it may be necessary to produce simulated news broadcasts, together with simulated websites. A medium exercise will normally last between two and three hours, though they can take place over several days. They typically involve a Scenario Cell who feed in pre-scripted injects throughout the exercise to give information and prompt actions.
Complex exercises A Complex exercise is perhaps the hardest to define as it aims to have as few boundaries as possible. It will probably incorporate all the aspects of a medium exercise and many more. Elements of the exercise will inevitably have to remain within a virtual world, but every attempt should be made to achieve realism. this might include a no-notice activation, actual evacuation and actual invocation of a disaster recovery site. While a start and cut off time will have to be agreed, the actual duration of the exercise might be unknown if events are allowed to run their course in real time. If it takes two hours to get to the DR site instead of the expected forty-five minutes, the exercise must be flexible enough to cater for this. If a key player is unavailable a deputy must be prepared to step in.
Definitions These definitions provide broad guidance as to the types of available exercise but it should be recognised that there can be considerable ‘blurring of the edges’. It is possible to conduct a Simple exercise at a Recovery Site thereby adding a different dimension but this would not necessarily make it a Medium exercise. Regardless of the category, the importance of an exercise is that it achieves its defined objectives.
Maintenance of a BCP manual is broken down into three periodic activities. The first activity is the confirmation of information in the manual, roll out to ALL staff for awareness and specific training for individuals whose roles are identified as critical in response and recovery. The second activity is the testing and verification of technical solutions established for recovery operations. The third activity is the testing and verification of documented organization recovery procedures. A biannual or annual maintenance cycle is typical.
All organizations change over time, therefore a BCP manual must change to stay relevant to the organization. Once data accuracy is verified, normally a call tree test is conducted to evaluate the notification plan's efficiency as well as the accuracy of the contact data. Some types of changes that should be identified and updated in the manual include:
As a part of ongoing maintenance, any specialized technical deployments must be checked for functionality. Some checks include:
As work processes change over time, the previously documented organizational recovery procedures may no longer be suitable. Some checks include:
As suggested by the diagram included in this article, there is a direct relationship between the test and maintenance phases and the impact phase. When establishing a BCP manual and recovery infrastructure from scratch, issues found during the testing phase often must be reintroduced to the analysis phase.