Product Cycle
   HOME

TheInfoList



OR:

In
industry Industry may refer to: Economics * Industry (economics), a generally categorized branch of economic activity * Industry (manufacturing), a specific branch of economic activity, typically in factories with machinery * The wider industrial sector ...
, Product Lifecycle Management (PLM) is the process of managing the entire lifecycle of a product from its inception through the
engineering Engineering is the use of scientific method, scientific principles to design and build machines, structures, and other items, including bridges, tunnels, roads, vehicles, and buildings. The discipline of engineering encompasses a broad rang ...
,
design A design is a plan or specification for the construction of an object or system or for the implementation of an activity or process or the result of that plan or specification in the form of a prototype, product, or process. The verb ''to design'' ...
and
manufacture Manufacturing is the creation or production of goods with the help of equipment, labor, machines, tools, and chemical or biological processing or formulation. It is the essence of secondary sector of the economy. The term may refer to a rang ...
, as well as the service and disposal of manufactured products. PLM integrates people, data, processes and
business Business is the practice of making one's living or making money by producing or Trade, buying and selling Product (business), products (such as goods and Service (economics), services). It is also "any activity or enterprise entered into for pr ...
systems and provides a product information backbone for companies and their extended enterprises.


History

The inspiration for the burgeoning business process now known as PLM came from
American Motors Corporation American Motors Corporation (AMC; commonly referred to as American Motors) was an American automobile manufacturing company formed by the merger of Nash-Kelvinator Corporation and Hudson Motor Car Company on May 1, 1954. At the time, it was the ...
(AMC). The automaker was looking for a way to speed up its product development process to compete better against its larger competitors in 1985, according to
François Castaing François J. Castaing (born 18 March 1945 in Marseille) is an automotive executive with Renault, American Motors, and Chrysler. He is an engineering graduate from École Nationale Supérieure d'Arts et Métiers in Paris, and worked in Europe fo ...
, Vice President for Product Engineering and Development. Lacking the "massive budgets of General Motors, Ford, and foreign competitors … AMC placed R&D emphasis on bolstering the product lifecycle of its prime products (particularly Jeeps)." After introducing its compact
Jeep Cherokee (XJ) The Jeep Cherokee (XJ) is a sport utility vehicle manufactured and marketed across a single generation by Jeep in the United States from 1983 through 2001 — and globally through 2014. It was available in two- or four-door, five-passenger, fro ...
, the vehicle that launched the modern
sport utility vehicle A sport utility vehicle (SUV) is a car classification that combines elements of road-going passenger cars with features from off-road vehicles, such as raised ground clearance and four-wheel drive. There is no commonly agreed-upon definitio ...
(SUV) market, AMC began development of a new model, that later came out as the
Jeep Grand Cherokee The Jeep Grand Cherokee is a range of mid-size SUVs produced by the American manufacturer Jeep. At its introduction, while most SUVs were still manufactured with body-on-frame construction, the Grand Cherokee has used a unibody chassis from the ...
. The first part in its quest for faster product development was
computer-aided design Computer-aided design (CAD) is the use of computers (or ) to aid in the creation, modification, analysis, or optimization of a design. This software is used to increase the productivity of the designer, improve the quality of design, improve c ...
(CAD) software system that made engineers more productive. The second part in this effort was the new communication system that allowed conflicts to be resolved faster, as well as reducing costly engineering changes because all drawings and documents were in a central database. The product data management was so effective that after AMC was purchased by Chrysler, the system was expanded throughout the enterprise connecting everyone involved in designing and building products. While an
early adopter An early adopter or lighthouse customer is an early customer of a given company, product, or technology. The term originates from Everett M. Rogers' ''Diffusion of Innovations'' (1962). History Typically, early adopters are customers who, in ad ...
of PLM technology, Chrysler was able to become the auto industry's lowest-cost producer, recording development costs that were half of the industry average by the mid-1990s. During 1982–83, Rockwell International developed initial concepts of
Product Data Management Product data management (PDM) should not be confused with product information management (PIM). PDM is the name of a business function within product lifecycle management (PLM) that is denotes the management and publication of product data. In soft ...
(PDM) and PLM for the B-1B bomber program. The system called Engineering Data System (EDS) was augmented to interface with Computervision and CADAM systems to track part configurations and lifecycle of components and assemblies. Computervision was later released implementing only the PDM aspects as the lifecycle model was specific to Rockwell and aerospace needs.


Forms

PLM systems help organizations in coping with the increasing complexity and engineering challenges of developing new products for the global competitive markets. Product lifecycle management (PLM) should be distinguished from '
product life-cycle management (marketing) Product life-cycle management (PLM) is the succession of strategies by business management as a product goes through its life-cycle. The conditions in which a product is sold (advertising, saturation) changes over time and must be managed as it ...
' (PLCM). PLM describes the engineering aspect of a product, from managing descriptions and properties of a product through its development and useful life; whereas, PLCM refers to the commercial management of the life of a product in the business market with respect to costs and sales measures. Product lifecycle management can be considered one of the four cornerstones of a manufacturing corporation's
information technology Information technology (IT) is the use of computers to create, process, store, retrieve, and exchange all kinds of data . and information. IT forms part of information and communications technology (ICT). An information technology system (I ...
structure. All companies need to manage communications and information with their customers (CRM-
customer relationship management Customer relationship management (CRM) is a process in which a business or other organization administers its interactions with customers, typically using data analysis to study large amounts of information. CRM systems compile data from a ra ...
), their suppliers and fulfillment (SCM-
supply chain management In commerce, supply chain management (SCM) is the management of the flow of goods and services including all processes that transform raw materials into final products between businesses and locations. This can include the movement and stor ...
), their resources within the enterprise (ERP-
enterprise resource planning Enterprise resource planning (ERP) is the integrated management of main business processes, often in real time and mediated by software and technology. ERP is usually referred to as a category of Business management tools, business management ...
) and their product planning and development (PLM). One form of PLM is called people-centric PLM. While traditional PLM tools have been deployed only on the release or during the release phase, people-centric PLM targets the design phase. As of 2009, ICT development (EU-funded PROMISE project 2004–2008) has allowed PLM to extend beyond traditional PLM and integrate sensor data and real-time 'lifecycle event data' into PLM, as well as allowing this information to be made available to different players in the total lifecycle of an individual product (closing the information loop). This has resulted in the extension of PLM into
closed-loop lifecycle management In industry, Product Lifecycle Management (PLM) is the process of managing the entire lifecycle of a product from its inception through the engineering, design and manufacture, as well as the service and disposal of manufactured products. PL ...
(CL2M).


Benefits

Documented benefits of product lifecycle management include: * Reduced
time to market In commerce, time to market (TTM) is the length of time it takes from a product being conceived until its being available for sale. The reason that time to market is so important is since being late erodes the addressable market into which prod ...
* Increase full price sales * Improved product quality and reliability * Reduced
prototyping A prototype is an early sample, model, or release of a product built to test a concept or process. It is a term used in a variety of contexts, including semantics, design, electronics, and software programming. A prototype is generally used to ...
costs * More accurate and timely request for quote generation * Ability to quickly identify potential sales opportunities and revenue contributions * Savings through the re-use of original data * A
framework A framework is a generic term commonly referring to an essential supporting structure which other things are built on top of. Framework may refer to: Computing * Application framework, used to implement the structure of an application for an op ...
for product optimization * Reduced waste * Savings through the complete integration of engineering workflows * Documentation that can assist in proving compliance for
RoHS The Restriction of Hazardous Substances Directive 2002/95/EC (RoHS 1), short for Directive on the restriction of the use of certain hazardous substances in electrical and electronic equipment, was adopted in February 2003 by the European Unio ...
or
Title 21 CFR Part 11 Title 21 CFR Part 11 is the part of Title 21 of the Code of Federal Regulations that establishes the United States Food and Drug Administration (FDA) regulations on electronic records and electronic signatures (ERES). Part 11, as it is commonly cal ...
* Ability to provide contract manufacturers with access to a centralized product record * Seasonal fluctuation management * Improved forecasting to reduce material costs * Maximize
supply chain collaboration In supply chain management, supply chain collaboration is defined as two or more autonomous firms working jointly to plan and execute supply chain operations. It can deliver substantial benefits and advantages to collaborators. It is known as a coop ...


Overview of product lifecycle management

Within PLM there are five primary areas; #
Systems engineering Systems engineering is an interdisciplinary field of engineering and engineering management that focuses on how to design, integrate, and manage complex systems over their enterprise life cycle, life cycles. At its core, systems engineering util ...
(SE) is focused on meeting all requirements, primarily meeting customer needs, and coordinating the systems design process by involving all relevant disciplines. An important aspect for lifecycle management is a subset within Systems Engineering called
Reliability Engineering Reliability engineering is a sub-discipline of systems engineering that emphasizes the ability of equipment to function without failure. Reliability describes the ability of a system or component to function under stated conditions for a specifie ...
. #
Product Product may refer to: Business * Product (business), an item that serves as a solution to a specific consumer problem. * Product (project management), a deliverable or set of deliverables that contribute to a business solution Mathematics * Produ ...
and portfolio management2 (PPM) is focused on managing resource allocation, tracking progress, plan for
new product development In business and engineering, new product development (NPD) covers the complete process of bringing a new product (business), product to market, renewing an existing product or introducing a product in a new market. A central aspect of NPD is prod ...
projects that are in process (or in a holding status). Portfolio management is a tool that assists management in tracking progress on new products and making trade-off decisions when allocating scarce resources. #
Product design Product design as a verb is to create a new product to be sold by a business to its customers. A very broad coefficient and effective generation and development of ideas through a process that leads to new products. Thus, it is a major aspect of n ...
(CAx) is the process of creating a new product to be sold by a business to its customers. #
Manufacturing process management Manufacturing process management (MPM) is a collection of technologies and methods used to define how products are to be manufactured. MPM differs from ERP/MRP which is used to plan the ordering of materials and other resources, set manufacturing ...
(MPM) is a collection of technologies and methods used to define how products are to be manufactured. #
Product data management Product data management (PDM) should not be confused with product information management (PIM). PDM is the name of a business function within product lifecycle management (PLM) that is denotes the management and publication of product data. In soft ...
(PDM) is focused on capturing and maintaining information on products and/or services through their development and useful life. Change management is an important part of PDM/PLM. ''Note: While application software is not required for PLM processes, the business complexity and rate of change requires organizations execute as rapidly as possible.''


Introduction to development process

The core of PLM (product lifecycle management) is the creation and central management of all product data and the technology used to access this information and knowledge. PLM as a discipline emerged from tools such as
CAD Computer-aided design (CAD) is the use of computers (or ) to aid in the creation, modification, analysis, or optimization of a design. This software is used to increase the productivity of the designer, improve the quality of design, improve co ...
,
CAM Calmodulin (CaM) (an abbreviation for calcium-modulated protein) is a multifunctional intermediate calcium-binding messenger protein expressed in all eukaryotic cells. It is an intracellular target of the secondary messenger Ca2+, and the bind ...
and PDM, but can be viewed as the integration of these tools with methods, people and the processes through all stages of a product's life. It is not just about software technology but is also a business strategy. For simplicity the stages described are shown in a traditional sequential engineering workflow. The exact order of event and tasks will vary according to the product and industry in question but the main processes are: *Conceive **
Specification A specification often refers to a set of documented requirements to be satisfied by a material, design, product, or service. A specification is often a type of technical standard. There are different types of technical or engineering specificati ...
**Concept design *Design **Detailed design **Validation and analysis (simulation) **Tool design *Realise **Plan manufacturing **Manufacture **Build/Assemble **Test (
quality control Quality control (QC) is a process by which entities review the quality of all factors involved in production. ISO 9000 defines quality control as "a part of quality management focused on fulfilling quality requirements". This approach places ...
) *Service **Sell and deliver **Use **Maintain and support **Dispose The major key point events are: *Order *Idea *
Kickoff Kickoff or kick-off may refer to * Kick-off (association football) * Kickoff (gridiron football) * ''Kick Off'' (series), a series of computer association football games * ''Kick Off'' (album), a 1985 album by Onyanko Club * ''Kick Off'' (magaz ...
*Design freeze *Launch The reality is however more complex, people and departments cannot perform their tasks in isolation and one activity cannot simply finish, and the next activity start. Design is an iterative process, often designs need to be modified due to manufacturing constraints or conflicting requirements. Whether a customer order fits into the timeline depends on the industry type and whether the products are, for example, built to order, engineered to order, or assembled to order.


Phases of product lifecycle and corresponding technologies

Many software solutions have been developed to organize and integrate the different phases of a product's lifecycle. PLM should not be seen as a single software product but a collection of software tools and working methods integrated together to address either single stages of the lifecycle or connect different tasks or manage the whole process. Some software providers cover the whole PLM range while others have a single niche application. Some applications can span many fields of PLM with different modules within the same data model. An overview of the fields within PLM is covered here. The simple classifications do not always fit exactly; many areas overlap and many software products cover more than one area or do not fit easily into one category. It should also not be forgotten that one of the main goals of PLM is to collect knowledge that can be reused for other projects and to coordinate simultaneous concurrent development of many products. It is about business processes, people and methods as much as software application solutions. Although PLM is mainly associated with engineering tasks it also involves
marketing Marketing is the process of exploring, creating, and delivering value to meet the needs of a target market in terms of goods and services; potentially including selection of a target audience; selection of certain attributes or themes to emph ...
activities such as
product portfolio management Product management is the business process of planning, developing, launching, and managing a product or service. It includes the entire lifecycle of a product, from ideation to development to go to market. Product managers are responsible for ...
(PPM), particularly with regards to
new product development In business and engineering, new product development (NPD) covers the complete process of bringing a new product (business), product to market, renewing an existing product or introducing a product in a new market. A central aspect of NPD is prod ...
(NPD). There are several life-cycle models in each industry to consider, but most are rather similar. What follows below is one possible life-cycle model; while it emphasizes hardware-oriented products, similar phases would describe any form of product or service, including non-technical or software-based products:


Phase 1: Conceive


Imagine, specify, plan, innovate

The first stage is the definition of the product requirements based on customer, company, market, and regulatory bodies’ viewpoints. From this specification, the product's major technical parameters can be defined. In parallel, the initial concept design work is performed defining the aesthetics of the product together with its main functional aspects. Many different media are used for these processes, from pencil and paper to clay models to 3D CAID
computer-aided industrial design Computer Aided Industrial Design (CAID) is a subset of computer-aided design (CAD) software that can assist in creating the look-and-feel or industrial design aspects of a product in development. CAID programs tend to provide designers with impro ...
software. In some concepts, the investment of resources into research or analysis-of-options may be included in the conception phase – e.g. bringing the technology to a level of maturity sufficient to move to the next phase. However, life-cycle engineering is iterative. It is always possible that something doesn't work well in any phase enough to back up into a prior phase – perhaps all the way back to conception or research. There are many examples to draw from. In
New Product Development In business and engineering, new product development (NPD) covers the complete process of bringing a new product (business), product to market, renewing an existing product or introducing a product in a new market. A central aspect of NPD is prod ...
process, this phase collects and evaluates also market risks and technical risks by measuring KPI and scoring model.


Phase 2: Design


Describe, define, develop, test, analyze and validate

This is where the detailed design and development of the product's form starts, progressing to prototype testing, through pilot release to full product launch. It can also involve redesign and ramp for improvement to existing products as well as
planned obsolescence In economics and industrial design, planned obsolescence (also called built-in obsolescence or premature obsolescence) is a policy of planning or designing a product with an artificially limited useful life or a purposely frail design, so that ...
. The main tool used for design and development is CAD. This can be simple 2D drawing/drafting or 3D parametric feature-based solid/surface modeling. Such software includes technology such as Hybrid Modeling,
Reverse Engineering Reverse engineering (also known as backwards engineering or back engineering) is a process or method through which one attempts to understand through deductive reasoning how a previously made device, process, system, or piece of software accompli ...
, KBE (
knowledge-based engineering Knowledge-based engineering (KBE) is the application of knowledge-based systems technology to the domain of manufacturing design and production. The design process is inherently a knowledge-intensive activity, so a great deal of the emphasis for K ...
), NDT (
Nondestructive testing Nondestructive testing (NDT) is any of a wide group of analysis techniques used in science and technology industry to evaluate the properties of a material, component or system without causing damage. The terms nondestructive examination (NDE), n ...
), and Assembly construction. This step covers many engineering disciplines including: mechanical, electrical, electronic, software ( embedded), and domain-specific, such as architectural, aerospace, automotive, ... Along with the actual creation of geometry, there is the analysis of the components and product assemblies. Simulation, validation, and optimization tasks are carried out using CAE (
computer-aided engineering Computer-aided engineering (CAE) is the broad usage of computer software to aid in engineering analysis tasks. It includes , , , durability and optimization. It is included with computer-aided design (CAD) and computer-aided manufacturing (CAM) ...
) software either integrated into the CAD package or stand-alone. These are used to perform tasks such as: Stress analysis, FEA (
finite element analysis The finite element method (FEM) is a popular method for numerically solving differential equations arising in engineering and mathematical modeling. Typical problem areas of interest include the traditional fields of structural analysis, heat ...
);
kinematics Kinematics is a subfield of physics, developed in classical mechanics, that describes the Motion (physics), motion of points, Physical object, bodies (objects), and systems of bodies (groups of objects) without considering the forces that cause ...
;
computational fluid dynamics Computational fluid dynamics (CFD) is a branch of fluid mechanics that uses numerical analysis and data structures to analyze and solve problems that involve fluid flows. Computers are used to perform the calculations required to simulate th ...
(CFD); and mechanical event simulation (MES). CAQ (
computer-aided quality Computer-aided quality assurance (CAQ) is the engineering application of computers and computer-controlled machines for the definition and inspection of the quality of products. This includes: *Measuring equipment management *Goods inward inspecti ...
) is used for tasks such as Dimensional
tolerance (engineering) Engineering tolerance is the permissible limit or limits of variation in: # a physical dimension; # a measured value or physical property of a material, manufactured object, system, or service; # other measured values (such as temperature, hum ...
analysis. Another task performed at this stage is the sourcing of bought-out components, possibly with the aid of
procurement Procurement is the method of discovering and agreeing to terms and purchasing goods, Service (economics), services, or other works from an external source, often with the use of a tendering or competitive bidding process. When a government agenc ...
systems.


Phase 3: Realize


Manufacture, make, build, procure, produce, sell and deliver

Once the design of the product's components is complete, the method of manufacturing is defined. This includes CAD tasks such as tool design; including the creation of
CNC Numerical control (also computer numerical control, and commonly called CNC) is the automated control of machining tools (such as drills, lathes, mills, grinders, routers and 3D printers) by means of a computer. A CNC machine processes a ...
machining instructions for the product's parts as well as the creation of specific tools to manufacture those parts, using integrated or separate CAM (
computer-aided manufacturing Computer-aided manufacturing (CAM) also known as computer-aided modeling or computer-aided machining is the use of software to control machine tools in the manufacturing of work pieces. This is not the only definition for CAM, but it is the most ...
) software. This will also involve analysis tools for process simulation of operations such as casting, molding, and die-press forming. Once the manufacturing method has been identified CPM comes into play. This involves CAPE (computer-aided production engineering) or CAP/CAPP (computer-aided
production planning Production planning is the planning of production and manufacturing modules in a company or industry. It utilizes the resource allocation of activities of employees, materials and production capacity, in order to serve different customers.Farghe ...
) tools for carrying out factory, plant and facility layout, and production simulation e.g. press-line simulation, industrial ergonomics, as well as tool selection management. Once components are manufactured, their geometrical form and size can be checked against the original CAD data with the use of computer-aided inspection equipment and software. Parallel to the engineering tasks, sales product configuration and marketing documentation work takes place. This could include transferring engineering data (geometry and part list data) to a web-based sales configurator and other
desktop publishing Desktop publishing (DTP) is the creation of documents using page layout software on a personal ("desktop") computer. It was first used almost exclusively for print publications, but now it also assists in the creation of various forms of online c ...
systems.


Phase 4: Service


Use, operate, maintain, support, sustain, phase-out, retire, recycle and disposal

Another phase of the lifecycle involves managing "in-service" information. This can include providing customers and service engineers with the support and information required for
repair and maintenance The technical meaning of maintenance involves functional checks, servicing, repairing or replacing of necessary devices, equipment, machinery, building infrastructure, and supporting utilities in industrial, business, and residential install ...
, as well as
waste management Waste management or waste disposal includes the processes and actions required to manage waste from its inception to its final disposal. This includes the collection, transport, treatment and disposal of waste, together with monitoring ...
or
recycling Recycling is the process of converting waste materials into new materials and objects. The recovery of energy from waste materials is often included in this concept. The recyclability of a material depends on its ability to reacquire the p ...
. This can involve the use of tools such as Maintenance, Repair and Overhaul Management ( MRO) software. An effective service consideration begins during and even prior to product design as an integral part of the product lifecycle management. Service Lifecycle Management (SLM) has critical touchpoints at all phases of the product lifecycle that must be considered. Connecting and enriching a common digital thread will provide enhanced visibility across functions, improve data quality, and minimize costly delays and rework. There is an end-of-life to every product. Whether it be disposal or destruction of material objects or information, this needs to be carefully considered since it may be legislated and hence not free from ramifications.


Operational upgrades

During the operational phase, a product owner may discover components and consumables which have reached their individual end of life and for which there are Diminishing Manufacturing Sources or Material Shortages (DMSMS), or that the existing product can be enhanced for a wider or emerging user market easier or at less cost than a full redesign. This modernization approach often extends the product lifecycle and delays end-of-life disposal.


All phases: product lifecycle


Communicate, manage and collaborate

None of the above phases should be considered as isolated. In reality, a project does not run sequentially or separated from other product development projects, with information flowing between different people and systems. A major part of PLM is the coordination and management of product definition data. This includes managing engineering changes and release status of components; configuration product variations; document management; planning project resources as well as timescale and risk assessment. For these tasks data of graphical, textual, and meta nature — such as product Bills Of Materials (BOMs) — needs to be managed. At the engineering departments level, this is the domain of
Product Data Management Product data management (PDM) should not be confused with product information management (PIM). PDM is the name of a business function within product lifecycle management (PLM) that is denotes the management and publication of product data. In soft ...
(PDM) software, or at the corporate level Enterprise Data Management (EDM) software; such rigid level distinctions may not be consistently used, however, it is typical to see two or more data management systems within an organization. These systems may also be linked to other corporate systems such as SCM, CRM, and ERP. Associated with these systems are
project management Project management is the process of leading the work of a team to achieve all project goals within the given constraints. This information is usually described in project documentation, created at the beginning of the development process. Th ...
systems for project/program planning. This central role is covered by numerous collaborative product development tools that run throughout the whole lifecycle and across organizations. This requires many technology tools in the areas of conferencing, data sharing, and data translation. This specialized field is referred to as
product visualization Visualization or visualisation (see spelling differences) is any technique for creating images, diagrams, or animations to communicate a message. Visualization through visual imagery has been an effective way to communicate both abstract an ...
which includes technologies such as DMU ( digital mock-up), immersive virtual digital prototyping (
virtual reality Virtual reality (VR) is a simulated experience that employs pose tracking and 3D near-eye displays to give the user an immersive feel of a virtual world. Applications of virtual reality include entertainment (particularly video games), educ ...
), and photo-realistic imaging.


User skills

The broad array of solutions that make up the tools used within a PLM solution-set (e.g., CAD, CAM, CAx...) were initially used by dedicated practitioners who invested time and effort to gain the required skills. Designers and engineers produced excellent results with CAD systems, manufacturing engineers became highly skilled CAM users, while analysts, administrators, and managers fully mastered their support technologies. However, achieving the full advantages of PLM requires the participation of many people of various skills from throughout an extended enterprise, each requiring the ability to access and operate on the inputs and output of other participants. Despite the increased ease of use of PLM tools, cross-training all personnel on the entire PLM tool-set has not proven to be practical. Now, however, advances are being made to address ease of use for all participants within the PLM arena. One such advance is the availability of "role" specific user interfaces. Through tailorable user interfaces (UIs), the commands that are presented to users are appropriate to their function and expertise. These techniques include: *
Concurrent engineering Concurrent engineering (CE) or concurrent design and manufacturing is a work methodology emphasizing the parallelization of tasks (i.e. performing tasks concurrently), which is sometimes called simultaneous engineering or integrated product develo ...
workflow *
Industrial design Industrial design is a process of design applied to physical Product (business), products that are to be manufactured by mass production. It is the creative act of determining and defining a product's form and features, which takes place in advan ...
* Bottom–up design * Top–down design * Both-ends-against-the-middle design * Front-loading design workflow * Design in context * Modular design * NPD
new product development In business and engineering, new product development (NPD) covers the complete process of bringing a new product (business), product to market, renewing an existing product or introducing a product in a new market. A central aspect of NPD is prod ...
* DFSS
design for Six Sigma Design for Six Sigma (DFSS) is an Engineering design process, business process management method related to traditional Six Sigma.Chowdhury, Subir (2002) Design for Six Sigma: The revolutionary process for achieving extraordinary profits, Prenti ...
* DFMA design for manufacture / assembly * Digital simulation engineering * Requirement-driven design * Specification-managed validation *
Configuration management Configuration management (CM) is a process for establishing and maintaining consistency of a product's performance, functional, and physical attributes with its requirements, design, and operational information throughout its life. The CM proc ...


Concurrent engineering workflow

Concurrent engineering Concurrent engineering (CE) or concurrent design and manufacturing is a work methodology emphasizing the parallelization of tasks (i.e. performing tasks concurrently), which is sometimes called simultaneous engineering or integrated product develo ...
(British English: simultaneous engineering) is a workflow that, instead of working sequentially through stages, carries out a number of tasks in parallel. For example: starting tool design as soon as the detailed design has started, and before the detailed designs of the product are finished; or starting on detail design solid models before the concept design surfaces models are complete. Although this does not necessarily reduce the amount of manpower required for a project, as more changes are required due to the incomplete and changing information, it does drastically reduce lead times and thus time to market. Feature-based CAD systems have allowed simultaneous work on the 3D solid model and the 2D drawing by means of two separate files, with the drawing looking at the data in the model; when the model changes the drawing will associatively update. Some CAD packages also allow associative copying of geometry between files. This allows, for example, the copying of a part design into the files used by the tooling designer. The manufacturing engineer can then start work on tools before the final design freeze; when a design changes size or shape the tool geometry will then update. Concurrent engineering also has the added benefit of providing better and more immediate communication between departments, reducing the chance of costly, late design changes. It adopts a problem prevention method as compared to the problem solving and re-designing method of traditional sequential engineering.


Bottom–up design

Bottom–up design (CAD-centric) occurs where the definition of 3D models of a product starts with the construction of individual components. These are then virtually brought together in sub-assemblies of more than one level until the full product is digitally defined. This is sometimes known as the "review structure" which shows what the product will look like. The BOM contains all of the physical (solid) components of a product from a CAD system; it may also (but not always) contain other 'bulk items' required for the final product but which (in spite of having definite physical mass and volume) are not usually associated with CAD geometry such as paint, glue, oil, adhesive tape, and other materials. Bottom–up design tends to focus on the capabilities of available real-world physical technology, implementing those solutions to which this technology is most suited. When these bottom–up solutions have real-world value, bottom–up design can be much more efficient than top–down design. The risk of bottom–up design is that it very efficiently provides solutions to low-value problems. The focus of bottom–up design is "what can we most efficiently do with this technology?" rather than the focus of top–down which is "What is the most valuable thing to do?"


Top–down design

Top–down design is focused on high-level functional requirements, with relatively less focus on existing implementation technology. A top-level spec is repeatedly decomposed into lower-level structures and specifications until the physical implementation layer is reached. The risk of a top–down design is that it may not take advantage of more efficient applications of current physical technology, due to excessive layers of lower-level abstraction due to following an abstraction path that does not efficiently fit available components e.g. separately specifying sensing, processing, and wireless communications elements even though a suitable component that combines these may be available. The positive value of top–down design is that it preserves a focus on the optimum solution requirements. A part-centric top–down design may eliminate some of the risks of top–down design. This starts with a layout model, often a simple 2D sketch defining basic sizes and some major defining parameters, which may include some
Industrial design Industrial design is a process of design applied to physical Product (business), products that are to be manufactured by mass production. It is the creative act of determining and defining a product's form and features, which takes place in advan ...
elements. Geometry from this is associatively copied down to the next level, which represents different subsystems of the product. The geometry in the sub-systems is then used to define more detail in the levels below. Depending on the complexity of the product, a number of levels of this assembly are created until the basic definition of components can be identified, such as position and principal dimensions. This information is then associatively copied to component files. In these files the components are detailed; this is where the classic bottom–up assembly starts. The top–down assembly is sometimes known as a "control structure". If a single file is used to define the layout and parameters for the review structure it is often known as a skeleton file. Defense engineering traditionally develops the product structure from the top down. The system engineering process prescribes a functional decomposition of requirements and then physical allocation of product structure to the functions. This top down approach would normally have lower levels of the product structure developed from CAD data as a bottom–up structure or design.


Both-ends-against-the-middle design

Both-ends-against-the-middle (BEATM) design is a design process that endeavors to combine the best features of top–down design, and bottom–up design into one process. A BEATM design process flow may begin with an emergent technology that suggests solutions which may have value, or it may begin with a top–down view of an important problem that needs a solution. In either case, the key attribute of BEATM design methodology is to immediately focus at both ends of the design process flow: a top–down view of the solution requirements, and a bottom–up view of the available technology which may offer the promise of an efficient solution. The BEATM design process proceeds from both ends in search of an optimum merging somewhere between the top–down requirements, and bottom–up efficient implementation. In this fashion, BEATM has been shown to genuinely offer the best of both methodologies. Indeed, some of the best success stories from either top–down or bottom–up have been successful because of an intuitive, yet unconscious use of the BEATM methodology. When employed consciously, BEATM offers even more powerful advantages.


Front loading design and workflow

Front loading is taking top–down design to the next stage. The complete control structure and review structure, as well as downstream data such as drawings, tooling development, and CAM models, are constructed before the product has been defined or a project kick-off has been authorized. These assemblies of files constitute a template from which a family of products can be constructed. When the decision has been made to go with a new product, the parameters of the product are entered into the template model and all the associated data is updated. Obviously predefined associative models will not be able to predict all possibilities and will require additional work. The main principle is that a lot of the experimental/investigative work has already been completed. A lot of knowledge is built into these templates to be reused on new products. This does require additional resources "up front" but can drastically reduce the time between project kick-off and launch. Such methods do however require organizational changes, as considerable engineering efforts are moved into "offline" development departments. It can be seen as an analogy to creating a
concept car A concept car (also known as a concept vehicle, show vehicle or prototype) is a car made to showcase new styling and/or new technology. They are often exhibited at motor shows to gauge customer reaction to new and radical designs which may or ...
to test new technology for future products, but in this case, the work is directly used for the next product generation.


Design in context

Individual components cannot be constructed in isolation.
CAD Computer-aided design (CAD) is the use of computers (or ) to aid in the creation, modification, analysis, or optimization of a design. This software is used to increase the productivity of the designer, improve the quality of design, improve co ...
and
CAID ''Caid'' () (meaning "stuffed ball") is a collective name used in reference to various ancient and traditional Irish mob football games. "Caid" is frequently used by people in Gaeltacht areas of Ireland to refer to modern Gaelic football. The wo ...
models of components are created within the context of some or all of the other components within the product being developed. This is achieved using
assembly modelling Assembly modeling is a technology and method used by computer-aided design and product visualization computer software systems to handle multiple files that represent components within a product. The components within an assembly are represented a ...
techniques. The geometry of other components can be seen and referenced within the CAD tool being used. The other referenced components may or may not have been created using the same CAD tool, with their geometry being translated from other collaborative product development (CPD) formats. Some assembly checking such as DMU is also carried out using
product visualization Visualization or visualisation (see spelling differences) is any technique for creating images, diagrams, or animations to communicate a message. Visualization through visual imagery has been an effective way to communicate both abstract an ...
software.


Product and process lifecycle management (PPLM)

Product and process lifecycle management (PPLM) is an alternate genre of PLM in which the process by which the product is made is just as important as the product itself. Typically, this is the life sciences and advanced
specialty chemicals Speciality chemicals (also called specialties or effect chemicals) are particular chemical products which provide a wide variety of effects on which many other industry sectors rely. Some of the categories of speciality chemicals are adhesives, agr ...
markets. The process behind the manufacture of a given compound is a key element of the regulatory filing for a new drug application. As such, PPLM seeks to manage information around the development of the process in a similar fashion that baseline PLM talks about managing information around the development of the product. One variant of PPLM implementations are
Process Development Execution System {{Use dmy dates, date=March 2023 Process development execution systems (PDES) are software systems used to guide the development of high-tech manufacturing technologies like semiconductor manufacturing, MEMS manufacturing, photovoltaics manufacturi ...
s (PDES). They typically implement the whole development cycle of high-tech manufacturing technology developments, from initial conception, through development, and into manufacture. PDES integrates people with different backgrounds from potentially different legal entities, data, information and knowledge, and business processes.


Market size

After the
Great Recession The Great Recession was a period of marked general decline, i.e. a recession, observed in national economies globally that occurred from late 2007 into 2009. The scale and timing of the recession varied from country to country (see map). At ...
, PLM investments from 2010 onwards showed a higher growth rate than most general IT spending. Total spending on PLM software and services was estimated in 2020 to be $26 billion a year, with an estimated compound annual growth rate of 7.2% from 2021-2028. This was expected to be driven by a demand for software solutions for management functions, such as change, cost, compliance, data, and governance management.


Pyramid of production systems

According to Malakooti (2013), there are five long-term objectives that should be considered in production systems: * Cost: Which can be measured in terms of monetary units and usually consists of fixed and variable cost. * Productivity: Which can be measured in terms of the number of products produced during a period of time. * Quality: Which can be measured in terms of customer satisfaction levels for example. * Flexibility: Which can be considered the ability of the system to produce a variety of products for example. * Sustainability: Which can be measured in terms ecological soundness i.e. biological and environmental impacts of a production system. The relation between these five objects can be presented as a pyramid with its tip associated with the lowest Cost, highest Productivity, highest Quality, most Flexibility, and greatest Sustainability. The points inside of this pyramid are associated with different combinations of five criteria. The tip of the pyramid represents an ideal (but likely highly unfeasible) system whereas the base of the pyramid represents the worst system possible.


See also

*
Application lifecycle management Application lifecycle management (ALM) is the product lifecycle management (governance, development, and maintenance) of computer programs. It encompasses requirements management, software architecture, computer programming, software testing, so ...
*
Building lifecycle management Building lifecycle management or BLM is the adaptation of product lifecycle management (PLM)-like techniques to the design, construction, and management of buildings. Building lifecycle management requires accurate and extensive building informatio ...
*
Cradle-to-cradle design Cradle-to-cradle design (also referred to as 2CC2, C2C, cradle 2 cradle, or regenerative design) is a biomimetic approach to the design of products and systems that models human industry on nature's processes, where materials are viewed as nutri ...
*
Durable good In economics, a durable good or a hard good or consumer durable is a good that does not quickly wear out or, more specifically, one that yields utility over time rather than being completely consumed in one use. Items like bricks could be consid ...
*
Hype cycle The Gartner hype cycle is a graphical presentation developed, used and branded by the American research, advisory and information technology firm Gartner to represent the maturity, adoption, and social application of specific technologies. The hy ...
*
ISO 10303 ISO 10303 is an ISO standard for the computer-interpretable representation and exchange of product manufacturing information. It is an ASCII-based format. Its official title is: ''Automation systems and integration — Product data representa ...
– Standard for the Exchange of Product model data *
Kondratiev wave In economics, Kondratiev waves (also called supercycles, great surges, long waves, K-waves or the long economic cycle) are hypothesized cycle-like phenomena in the modern world economy. The phenomenon is closely connected with the technology li ...
* Life cycle thinking *
Life-cycle assessment Life cycle assessment or LCA (also known as life cycle analysis) is a methodology for assessing environmental impacts associated with all the stages of the Product lifecycle, life cycle of a commercial product, Process lifecycle, process, or ...
*
Product data record A product record (or product data record) is the data associated with the entire lifecycle of a product from its conception, through design and manufacture, to service and disposal. It includes all the information used to develop, describe, manage a ...
*
Product management Product management is the business process of planning, developing, launching, and managing a product or service. It includes the entire lifecycle of a product, from ideation to development to go to market. Product managers are responsible for ...
*
Sustainable materials management Sustainable Materials Management is a systemic approach to using and reusing materials more productively over their entire lifecycles. It represents a change in how a society thinks about the use of natural resources and environmental protection. By ...
*
System lifecycle 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 informa ...
*
Technology roadmap A technology roadmap is a flexible planning schedule to support strategic and long-range planning, by matching short-term and long-term goals with specific technology solutions. It is a plan that applies to a new product or process and may include ...
*
User-centered design User-centered design (UCD) or user-driven development (UDD) is a framework of process (not restricted to interfaces or technologies) in which usability goals, user characteristics, environment, tasks and workflow of a product, service or proce ...


References


Further reading

* * *


External links

* {{Authority control Brand management