Redefined phases of the innovation process models--an issue for companies.
Kajmakoska, Bisera ; Leber, Marjan
1. INTRODUCTION
Researchers and practitioners in innovation management have
actively tried to find a suitable and unique innovation process model.
Models are developed to describe the real innovation process in
organizations so its management could be eased (Eversheim, 2009). In
business and engineering new product development (NPD) is the term used
to describe the complete process of bringing new product or service to
the market. Companies typically see new product development as the first
stage in generating and commercializing new products. Several
researchers focused on better identification of the activities of the
innovation process. They identified a pre-phase of the NPD. The process
of identification of the phases especially of redefinition of each
lasted more than 60 years opening new fields of researches and
questions. Even though the different models are present in the
literature, still best practices especially in the pre-phase are
missing. This paper has in its scope to present the theoretical
background of the models in order to increase the awareness and
necessity of researches in this context.
This paper is organized in two sections. In the first section an
overview of some old models: in section one some models that show the
effort of researches to create a model suitable for new product
development and the early trials for defining the predevelopment phase
known as: Phase 0, Front End of Innovation (FEI), Fuzzy Front End
(Cooper, Kleinschmidt, 1994; Khurana, Rosenthal, 1998; Koen, 2001) are
described; in section 2 the latest New Concept Development Model (NPCD)
(Koen, 2001) and its changes are described appointing at identified
activities important for the innovation process.
2. THE OLD NEW PRODUCT DEVELOPMENT PROCESS MODELS
Process models are important component of the innovation management
(Cooper, Kleinschmidt, 1986; Ulrich, Eppinger, 2004) and "Having a
process model in place is only half the battle" (Cooper, 1996).
Through the years, it has been identified that the innovation process
includes several stages, not only the new product development phase and
commercialization as it was. This knowledge initiated further researches
on formulating the stages according to the observed common activities
performed during changes made on the products and processes in
companies. It has been confirmed by empirical analysis that some
activities in the innovation and product development process determine
the project outcomes.
[FIGURE 1 OMITTED]
Certain activities are found as key, such as: initial screening;
preliminary market assessment; detailed market study/market research;
business/financial analysis; product development; in-house product
tests; market launch (Cooper and Kleinschmidt, 1986; 1988). Basing on
these studies Dr. Robert G. Cooper developed the Stage-Gate new product
development model. The model is based on the processes implemented in
NASA in 1960's when the whole process has been divided into phases
with inputs and outputs defined in advance. The following research,
mainly within the framework of the Canadian NewProd project lead by R.
Cooper in 1996, resulted with the second generation model (Figure 1).
The newer model divided the innovation process into five phases
with gates, in which gatekeepers decide if to continue or stop the
process. The model integrates both technological and market
perspectives. The decision is based on the information available at the
time, including e.g. business case, risk analysis, availability of
necessary resources (money, people, etc). In this model activities which
usually are performed ad hoc before the stage-gate process
implementation are now standardized and the indicators of the process
performance (process lead time, costs, etc.) are significantly improved.
Other models stress out the interdisciplinary view--participation of
functions in all process phases (Ulrich, Eppinger, 2004). The model
includes also five phases where the process starts with Mission
Statement in which are included all functions.
An idea and mission statement was just not enough to support the
holistic view that the pre-development activities determine the
innovation success. Cooper and Kleinschmidt (1990) identified two
factors to play a major role in product success: the quality of
execution of pre-development activities and a well defined product and
project prior to the development phase. The new phase--Front End (FE) by
Khurana and Rosenthal (1998) (Figure 2) was defined as a phase which
includes product strategy formulation and communication, opportunity
identification and assessment, idea generation, product specification,
and project planning. Project starts by preliminary phase zero (0),
which should include market opportunity assessment. However, the idea or
concept is often generated in technical department; close cooperation
within the inter-functional team is therefore necessary.
[FIGURE 2 OMITTED]
The phase 0 results in product concept, including preliminary
identification of customer requirements, market segments, competitive
position, business opportunity and compliance with strategy. The first
phase then includes the business and technical feasibility evaluation,
development of product definition and project plan. After the
continuation is agreed on, the proper new product development starts.
3. NEW CONCEPT DEVELOPMENT MODEL
Initial phases of the innovation process were analyzed by Koen and
his team (Ajamian, Koen, 2002; Koen, 2001). They concluded that in those
phases is not suitable to use same approaches as in the following more
structured process phases. They state that many of the practices that
aid the NPD portion do not apply the Fuzzy Front End (FFE). On the basis
of the analysis of a number of works and their own research they
developed two models suited for the initial, less structured phases of
the innovation process: New Concept Development (NCD) and Technology
Stage-Gate (TSG) processes. They saw that the innovation process may be
divided into three parts: Front End of Innovation (FEI), New Product
Development (NPD), and Commercialization (Figure 3). "Front End of
Innovation" is defined by activities that come before the
"formal and well structured" New Product Development (NPD)
portion and it is synonymous to the FFE.
[FIGURE 3 OMITTED]
The differences between the FFE and the NPD processes have been
systemized by Koen et al. (2002). Applying to the FFE they based many of
their studies on the New Concept Development Model. The NCD model
consists of three key parts as defined by Koen: the engine is the
leadership, culture and business strategy of the organization that
drives the five key elements that are controllable by the corporation;
the inner spoke area defines the five controllable activity elements:
opportunity identification, opportunity analysis, idea generation and
enrichment, idea selection, and concept definition; the influencing
factors consist of organizational capabilities, the outside world
(distribution channels, law, government policy, customers, competitors,
and political and economic climate), and the enabling sciences (internal
and external) that may be involved.
Considering the Stage-Gate process from Cooper, Koen and his team
redefined a new model called TechSG to manage high-risk projects within
and at the transition between the fuzzy front end and the new product
development making the new one with solid gates. The technology
development team can only "see" to the next gate and
understand that the deliverable may change as the technology is
developed. Comparison of the two models can be found in Koen et al,
(2002).
4. CONCLUSION
Innovation process models through years were changing from simple
two- phase into three -phase and more complex. Newer models show non
linearity of the phases and include new pre-development phase.
Unfortunately it seems that after the latest models of Koen only few
individual trials of new models appear. According to Koen (2002),
systematic approaches using process models can be successful in the case
of incremental innovations, where both business and technical
uncertainty is rather low. Up till now it has been shown that activities
in the pre-development phase define the overall innovation process, yet
the literature lacks with best practices and empirical data of which
other variables could change or impact innovation process. This issue is
very important for the companies who would like to improve their
innovation process and to implement new strategies.
5. REFERENCES
Ajamian, G.M. & Koen, P.J. (2002) Technology Stage-Gate: A
structured Process for Managing High-Risk New Technology Projects, in
Belliveau, P., Griffin, A. & Sommermeyer, S.eds., The PDMA ToolBook
for New Product Development, John Wiley & Sons, New York
Cooper, R. G. (1996) Overhauling the New Product Process,
Industrial Marketing Management, Vol.25, No.6, pp. 465482
Cooper, R. G.& Kleinschmidt E. J. (1986) An Investigation into
the New Product Process: Steps, Deficiencies, and Impact, Journal of
Prod. Innov. Management, Elsevier Science Publishing, No. 3, pp. 71-85
Cooper, R. G.& Kleinschmidt, E. J. (1988) Resource Allocation in the New Product Process, Industrial Marketing Management, Vol. 17,
No. 3, pp. 249-262
Cooper, R. G. & Kleinschmidt E. J. (1990) New Products: The Key
Factors in Success, American Marketing Association, United States
Cooper, R. G. & Kleinschmidt, E. J. (1994) Determinants of
Timeliness in Product Development, Journal of Product Innovation
Management, No. 11, pp. 381-396.
Eversheim, W. (Ed.) (2009) Innovation Management for Technical
Products, Springer
Koen, P. J. et al. (2001) New Concept Development Model: Providing
Clarity and a Common Language to the 'Fuzzy Front End'of
Innovation, Research Technology Management, Vol. 44 No. 2, pp. 46-55
Koen P. J. et al. (2002) Fuzzy Front End: Effective Methods, Tools,
and Techniques, in Belliveau, P., Griffin, A. & Sommermeyer, S.eds.,
The PDMA ToolBook for New Product Development, John Wiley & Sons,
New York, pp. 5-36
Khurana, A., Rosenthal, S. R. (1998) Towards Holistic "Front
Ends", in New Product Development, The Journal of Product
Innovation Management, Vol. 15, No. 1, pp. 57-74
Ulrich, K.T. & Eppinger, S.D. (2004) Product Design and
Development, 3rd Edition, McGrawHill, New York, 2004
