Facility condition assessment

Last updated

Facility condition assessment is an analysis of the condition of a facility in terms of age, design, construction methods, and materials. [1] [2] The individuals who perform the assessment are typically architects and engineers, and skilled-trade technicians. Engineering and architectural professional opinions as to the conditions observed are part of the assessment. Building diagnostics go beyond facility condition assessments to determine solutions to the problems found and predict outcomes of the solutions.

Contents

This analysis can be done by walk-through inspection, mathematical modeling (see Mathematical Model), or a combination. The most accurate way of determining the condition requires walk-through to collect data.

This analysis can be performed on government/public, commercial, and private facilities.

The term facility condition assessment describes work accomplished for federal, state, and local government agencies or entities, as well as private facilities.

History

Architectural and Engineering (A&E) firms, or organizations, have assessed facilities as a part of their duties since those professions were conceived and formalized; though engineering and architectural work are not part of the assessment and are excluded in the scope of the assessment. The end product was usually an extensive narrative, supplemented with drawings and photographs, as to what conditions were observed, with a summary budget for correction of all deficiencies.

In the 1970s the term "facility audit" [3] was commonly used. This term was phased out as it suggested a review of the way a facility manager spent money on the facility; something that might be done by an ‘auditor’. Modern-day work took on its current form around the time of the founding of the International Facility Management Association in 1980, although the two were not related.

Facility condition assessments became useful because of the dramatic reduction in the size of computers, coupled with a rapid increase in speed and storage. This helped create the product known as a computerized maintenance management system.

The first publication that described the use of facility condition assessment data, financial modeling, and the use of the computerized maintenance management system application was "Managing the Facilities Portfolio", published by the National Association of College University Business Officers. The principal author of that book was Applied Management Engineering of Virginia Beach, Virginia. [4]

As technology has advanced, facility condition assessment modeling has become more recognized in the condition assessment industry. In 2007, Graphic Systems, following research they had performed for the United States Federal Government, published a white paper on Condition Indices and Strategic Planning, demonstrating the value that strategic condition assessment modeling and the theoretical condition index can offer to traditional visual condition assessment programs. [5]

Application

Once the walk-through data has been collected, appropriate estimates to correct the deficiencies should be prepared. When this is done, the user is left with potentially thousands of line items that need to be sorted, grouped together, and presented in a useful format. It is typical this format will adhere to the guidelines set forth by the Construction Specifications Institute.

At this point, computerized assistance makes the product usable and changes the nature of the facility condition assessment from pure engineering and management, to an amalgam of engineering, management, and technology. Many firms use purpose-built software to make the process of data collection and reporting more efficient, improve data analysis and visualization, and allow users to develop projects and capital planning strategies based on the deficiencies and costs identified in the assessment. These software products typically integrate easily with computerized maintenance management systems, geographic information systems, and other management information systems. [6]

Mostly facility-intensive organization such as military bases, schools, [7] colleges and universities, and city [8] and state governments need to develop a budget that allocates money for maintenance and repair. The information from facility condition assessments is used by people or organizations (e.g., boards of directors, commissioners, trustees, etc.) that must make these decisions as to how to distribute financial resources for facilities along with other needs of the organization. Frequently these people or organizations rely upon facility or building metrics for year-to-year comparisons.

A good example of a facility metric that can be generated by the facility condition assessment is the facility condition index. There are many facility condition assessment software systems developed by organisations to help business owners get everything at one place. The facility condition index can be further used in the development and usage of Building Information Modeling for existing buildings. The United States National Park Service used it and other metrics to better manage its assets and set realistic goals. [9]

See also

Related Research Articles

Facility management or facilities management (FM) is a professional management discipline focused on the efficient and effective delivery of logistics and other support services related to real property and buildings. It encompasses multiple disciplines to ensure functionality, comfort, safety and efficiency of the built environment by integrating people, place, process and technology, as defined by the International Organization for Standardization (ISO). The profession is certified through Global Facility Management Association member organizations.

<span class="mw-page-title-main">Systems development life cycle</span> Systems engineering terms

In systems engineering, information systems and software engineering, the systems development life cycle (SDLC), also referred to as the application development life cycle, is a process for planning, creating, testing, and deploying an information system. The SDLC concept applies to a range of hardware and software configurations, as a system can be composed of hardware only, software only, or a combination of both. There are usually six stages in this cycle: requirement analysis, design, development and testing, implementation, documentation, and evaluation.

Requirements engineering (RE) is the process of defining, documenting, and maintaining requirements in the engineering design process. It is a common role in systems engineering and software engineering.

In the context of software engineering, software quality refers to two related but distinct notions:

Prognostics is an engineering discipline focused on predicting the time at which a system or a component will no longer perform its intended function. This lack of performance is most often a failure beyond which the system can no longer be used to meet desired performance. The predicted time then becomes the remaining useful life (RUL), which is an important concept in decision making for contingency mitigation. Prognostics predicts the future performance of a component by assessing the extent of deviation or degradation of a system from its expected normal operating conditions. The science of prognostics is based on the analysis of failure modes, detection of early signs of wear and aging, and fault conditions. An effective prognostics solution is implemented when there is sound knowledge of the failure mechanisms that are likely to cause the degradations leading to eventual failures in the system. It is therefore necessary to have initial information on the possible failures in a product. Such knowledge is important to identify the system parameters that are to be monitored. Potential uses for prognostics is in condition-based maintenance. The discipline that links studies of failure mechanisms to system lifecycle management is often referred to as prognostics and health management (PHM), sometimes also system health management (SHM) or—in transportation applications—vehicle health management (VHM) or engine health management (EHM). Technical approaches to building models in prognostics can be categorized broadly into data-driven approaches, model-based approaches, and hybrid approaches.

Reliability engineering is a sub-discipline of systems engineering that emphasizes the ability of equipment to function without failure. Reliability is defined as the probability that a product, system, or service will perform its intended function adequately for a specified period of time, OR will operate in a defined environment without failure. Reliability is closely related to availability, which is typically described as the ability of a component or system to function at a specified moment or interval of time.

<span class="mw-page-title-main">Computer-aided production engineering</span>

Computer-aided production engineering (CAPE) is a relatively new and significant branch of engineering. Global manufacturing has changed the environment in which goods are produced. Meanwhile, the rapid development of electronics and communication technologies has required design and manufacturing to keep pace.

Integrated logistics support (ILS) is a technology in the system engineering to lower a product life cycle cost and decrease demand for logistics by the maintenance system optimization to ease the product support. Although originally developed for military purposes, it is also widely used in commercial customer service organisations.

Computer-aided facility management (CAFM) is the support of facility management by information technology. The supply of information about the facilities is the center of attention. The tools of the CAFM are called CAFM software, CAFM applications or CAFM systems. CAFM is often interchangeably with CMMS since both categories of software practically fulfill the same purposes.

<span class="mw-page-title-main">Building information modeling</span> Approach used to design and document building and infrastructure designs

Building information modeling (BIM) is an approach involving the generation and management of digital representations of the physical and functional characteristics of buildings or other physical assets and facilities. BIM is supported by various tools, processes, technologies and contracts. Building information models (BIMs) are computer files which can be extracted, exchanged or networked to support decision-making regarding a built asset. BIM software is used by individuals, businesses and government agencies who plan, design, construct, operate and maintain buildings and diverse physical infrastructures, such as water, refuse, electricity, gas, communication utilities, roads, railways, bridges, ports and tunnels.

Asset management is a systematic approach to the governance and realization of all value for which a group or entity is responsible. It may apply both to tangible assets and to intangible assets. Asset management is a systematic process of developing, operating, maintaining, upgrading, and disposing of assets in the most cost-effective manner.

An integrated workplace management system (IWMS) is an ultimate software platform for organizational uses of workplace resources, including the management of real estate portfolio, infrastructure and facilities assets of a company. IWMS solutions are commonly packaged as an integrated suite or as individual modules that can be scaled over time. They are used by corporate occupiers, real estate services firms, facilities services providers, landlords and managing agents. Traditionally focused on supporting real estate and facilities professionals, IWMS solutions are becoming more employee-oriented, expanding their focus to include all building occupants and visitors.

Quality engineering is the discipline of engineering concerned with the principles and practice of product and service quality assurance and control. In software development, it is the management, development, operation and maintenance of IT systems and enterprise architectures with high quality standard.

Knowledge Discovery Metamodel (KDM) is a publicly available specification from the Object Management Group (OMG). KDM is a common intermediate representation for existing software systems and their operating environments, that defines common metadata required for deep semantic integration of Application Lifecycle Management tools. KDM was designed as the OMG's foundation for software modernization, IT portfolio management and software assurance. KDM uses OMG's Meta-Object Facility to define an XMI interchange format between tools that work with existing software as well as an abstract interface (API) for the next-generation assurance and modernization tools. KDM standardizes existing approaches to knowledge discovery in software engineering artifacts, also known as software mining.

Software quality control is the set of procedures used by organizations to ensure that a software product will meet its quality goals at the best value to the customer, and to continually improve the organization’s ability to produce software products in the future.

Virtual design and construction (VDC) is the management of integrated multi-disciplinary performance models of design–construction projects, including the product (facilities), work processes, and organization of the design – construction – operation team to support explicit and public business objectives. This is usually achieved creating a digital twin of the project, in where to manage the information.

<span class="mw-page-title-main">Enterprise life cycle</span> Process of changing an enterprise over time

Enterprise life cycle (ELC) in enterprise architecture is the dynamic, iterative process of changing the enterprise over time by incorporating new business processes, new technology, and new capabilities, as well as maintenance, disposition and disposal of existing elements of the enterprise.

In software engineering, a software development process or software development life cycle (SDLC) is a process of planning and managing software development. It typically involves dividing software development work into smaller, parallel, or sequential steps or sub-processes to improve design and/or product management. The methodology may include the pre-definition of specific deliverables and artifacts that are created and completed by a project team to develop or maintain an application.

<span class="mw-page-title-main">Infrastructure asset management</span> Maintenance of public infrastructure assets

Infrastructure asset management is the integrated, multidisciplinary set of strategies in sustaining public infrastructure assets such as water treatment facilities, sewer lines, roads, utility grids, bridges, and railways. Generally, the process focuses on the later stages of a facility's life cycle, specifically maintenance, rehabilitation, and replacement. Asset management specifically uses software tools to organize and implement these strategies with the fundamental goal to preserve and extend the service life of long-term infrastructure assets which are vital underlying components in maintaining the quality of life in society and efficiency in the economy. In the 21st century, climate change adaptation has become an important part of infrastructure asset management competence.

The facility condition index (FCI) is used in facilities management to provide a benchmark to compare the relative condition of a group of facilities. The FCI is primarily used to support asset management initiatives of federal, state, and local government facilities organizations. This would also include universities, housing and transportation authorities, and primary and secondary school systems.

References

  1. "Facility Condition Assessment". VFA. Retrieved 29 April 2015.
  2. "Facility Condition Assessments". EMG Corp. Retrieved 29 April 2015.
  3. "The Facilities Audit, Dr. Harvey H. Kaiser"
  4. Applied Management Engineering, Inc
  5. Teicholz, Eric; Evans, Gary. "Theoretical Condition Indices" (PDF). Graphic Systems. Retrieved 29 April 2015.
  6. "Facility Condition Assessment Software | FOScore". CannonDesign FOS. Retrieved 2019-08-22.
  7. "School Planning & Management - A Proven Methodology for Assessing School Buildings". fieldingnair.com. Archived from the original on 2012-03-09.
  8. "Archived copy". Archived from the original on 2015-04-02. Retrieved 2015-03-31.{{cite web}}: CS1 maint: archived copy as title (link)
  9. "Facility Condition Index, Other Metrics, Improve Asset Management at National Park Service". FacilitiesNet. Retrieved 29 April 2015.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.