Technological Innovation Capabilities and Firm Performance
Technological innovation capability (TIC) is
defined as a comprehensive set of characteristics of a firm that
facilities and supports its technological innovation strategies.
An audit to evaluate the TICs of a firm may trigger
improvement in its future practices. Such an audit can be used
by the firm for self assessment or third-party independent
assessment to identify problems of its capability status. This
paper attempts to develop such an auditing framework that
can help to determine the subtle links between innovation
capabilities and business performance; and to enable the
auditor to determine whether good practice is in place. The
seven TICs in this study include learning, R&D, resources
allocation, manufacturing, marketing, organization and
strategic planning capabilities. Empirical data was acquired
through a survey study of 200 manufacturing firms in the
Hong Kong/Pearl River Delta (HK/PRD) region. Structural
equation modelling was employed to examine the
relationships among TICs and various performance indicators:
sales performance, innovation performance, product
performance, and sales growth. The results revealed that
different TICs have different impacts on different
performance measures. Organization capability was found to
have the most influential impact. Hong Kong manufacturers
are now facing the challenge of high-mix-low-volume
customer orders. In order to cope with this change, good
capability in organizing different activities among various
departments is critical to the success of a company.
[1] Lawless, M.J. and Fisher, R.J. (1990). Sources of Durable Competitive
Advantages in New Products, Journal of Product Innovation
Management, Vol. 7, No. 1, pp35-43.
[2] Guan, J.(2002), Comparison Study of Industrial Innovation between
China and Some European Countries, Production and Inventory
Management Journal, Vol. 43, No.3
[3] Lall, S., (1992), Technological Capabilities and Industrialization, World
Development, Vol. 20, No. 2, pp165 - 168
[4] Burgelman, R., Maidique, M. A. and Wheelwright, S.C. (2004).
Strategic Management of Technology and Innovation, McGraw Hill,
New York
[5] Guan, J. and Ma, N. (2003), Innovative Capability and Export
Performance of Chinese Firms, Technovation, Vol. 23, pp737-747.
[6] Christensen, J.F. (1995). Asset Profiles for Technological Innovation,
Research Policy, Vol. 24, pp727-745
[7] Chiesa, V., Coughlan, P. and Voss, C.A.(1996). Development of a
Technical Innovation Audit, Journal of Product Innovation
Management, Vol. 13, pp105-136
[8] Yam, C.M, Guan, J.C, Pun, K.F. and Tam, P.Y. (2004). An Audit of
Technological Innovation Capabilities in Chinese Firms: Some
Empirical Findings in Beijing, China, Research Policy, Vol. 33, No. 8,
pp1123-1250
[9] Bougrain, F. and Haudeville, B. (2002). Innovation, Collaboration and
SMEs Internal Research Capacities, Research Policy, Vol. 31, pp735-
747
[10] Danneels, E. (2002). The Dynamic of Product Innovation and Firm
Competences, Strategic Management Journal, Vol. 23, pp1095-1121
[11] Galende, J. and Fuente, J.M. (2003). Internal Factors Determining a
Firm-s Innovative Behavior, Research Policy, Vol. 32, pp715-736
[12] Teece, D.J. (1996). Firm Organization, Industrial Structure, and
Technological Innovation, Journal of Economic Behavior &
Organization, Vol. 31, pp193-224
[13] Evangelista, R. Perani, G., Raptit, F. and Archibugi, D. (1997). Nature
and Impact of Innovation in Manufacturing: Some Evidence from the
Italian Innovation Survey, Research Policy, Vol. 26, pp521-536
[14] Yam, C.M. R., Lo, W., Tang, P.Y. and Sun, H.Y. (2003), Enhancement
of Global Competitiveness for Hong Kong/China Manufacturing
Industries through i-Agile Virtual Enterprising, International Journal of
Technology Management, Vol. 26, No. 1, pp88-95
[15] Lo, W.L., Naidu, G.M. and Yam, C.M. (2001). Dynamic and Responsive
Firm Strategy : A Case Study of Hong Kong and China Collaborations
in Pearl River Delta, Journal of Global Marketing, Vol. 14, No.4 .
[16] Fu, J and Shi, P (1995). Technological accumulation versus technology
innovation a new approach of Chinese firms; technological innovation
form technological accumulation dimension, Sun-Yat-Sen Management
Review, Vol. 3 No 4 pp112-121
[17] Evangelista, R. Iammarino, S. Mastrostefano V. and Silvani A.(2001),
Measuring the Regional Dimension of Innovation: Lessons from the
Italian Innovation Survey, Technovation, Vol. 21 No 11, pp733-745.
[18] Wu, G. (2001). Technological Innovation Management, Tsinghua
University Press, Beijing (in Chinese)
[19] Wan, D., Ong, C.H. and Lee, F. (2003). Determinants of Firm
Innovation in Singapore, Technovation, Vol. 25, No. 3, pp261-273
[20] Rothwell, R. (1983), Innovation and Firm Size: A Case of Dynamic
Complementarity; or, Is Small Really so Beautiful?, Journal of General
Management, Vol. 8 No.3, pp.5-25
[21] Pavitt, K., Robson, M. and Townsend, J. (1987). The Size Distribution
of Innovating Firms in the UK 1945-1983, Journal of Industrial
Economics, Vol. 35, pp279-315
[22] Tsai, Wenpin (2001). Knowledge transfer in intraorganizational
networks: Effects of network position and absorptive capacity on
business unit innovation and performance, Academy of Management
Journal, Vol. 44, No. 5, pp996-1004
[23] Caloghirou, Y., Kastelli, I. and Tsakanika, A. (2004). Internal
Capabilities and External Knowledge Sources: Complements or
Substitutes for Innovative Performance?, Technovation, Vol. 24, pp29-
39
[24] Hong Kong Trade Development Council, HKTDC (2000). Challenges
and Opportunities for Hong Kong-s Electronics Industries: Current
Status and Future Prospects, Hong Kong Trade Development Council,
Hong Kong
[25] SQW (Asia) Ltd, Rapra International Limited, Hong Kong Plastics
Technology Centre (2001). Techno-economic and market research study
on Hong Kong-s Plastics Industry, 1999/2000, Hong Kong Trade
Development Council, Hong Kong
[26] Armstrong, J. and Overton, T. (1977). Estimating Nonresponse Bias in
Mail Surveys. Journal of Marketing Research, Vol. 14, No. 3, pp396-
402
[27] Churchill, G.A. (1979). A Paradigm for Developing Better Measures of
Marketing Constructs, Journal of Marketing Research, Vol. 16, No. 2,
pp64-73
[28] Kline, R.B. (1998), Principles and Practice of Structural Equation
Modeling, The Guilford Press, New York
[29] Bentler, P.M. (1990). Comparative Fit Indexes in Structural Models,
Psychological Bulletin, Vol. 107, No. 2, pp238-246
[30] Byrne, B.M. (2002). Structural Equation Modeling with AMOS: Basic
Concepts, Applications and Programming, Lawrence Erlbaum
Associates, London
[31] Cohen, W.M. and Levinthal, F.A. (1990). Absorptive capacity a new
perspective on learning and innovation, Administrative Science
Quarterly, Vol. 35 No. 1, pp128-152
[32] Carmen, C.O, María de la Luz, F.A and Salustiano, M.F. (2006).
Influence of top management team vision and work team characteristics
on innovation: The Spanish case, European Journal of Innovation
Management, Vol. 9, No. 2; pp179-202
[33] Dosi, G., Faillo, M., and Marengo, L. (2008). Organizational
Capabilities, Patterns of Knowledge Accumulation and Governance
Structures in Business Firms: An Introduction, Organization Studies,
Vol. 29, No. 8/9, pp1165-1211
[1] Lawless, M.J. and Fisher, R.J. (1990). Sources of Durable Competitive
Advantages in New Products, Journal of Product Innovation
Management, Vol. 7, No. 1, pp35-43.
[2] Guan, J.(2002), Comparison Study of Industrial Innovation between
China and Some European Countries, Production and Inventory
Management Journal, Vol. 43, No.3
[3] Lall, S., (1992), Technological Capabilities and Industrialization, World
Development, Vol. 20, No. 2, pp165 - 168
[4] Burgelman, R., Maidique, M. A. and Wheelwright, S.C. (2004).
Strategic Management of Technology and Innovation, McGraw Hill,
New York
[5] Guan, J. and Ma, N. (2003), Innovative Capability and Export
Performance of Chinese Firms, Technovation, Vol. 23, pp737-747.
[6] Christensen, J.F. (1995). Asset Profiles for Technological Innovation,
Research Policy, Vol. 24, pp727-745
[7] Chiesa, V., Coughlan, P. and Voss, C.A.(1996). Development of a
Technical Innovation Audit, Journal of Product Innovation
Management, Vol. 13, pp105-136
[8] Yam, C.M, Guan, J.C, Pun, K.F. and Tam, P.Y. (2004). An Audit of
Technological Innovation Capabilities in Chinese Firms: Some
Empirical Findings in Beijing, China, Research Policy, Vol. 33, No. 8,
pp1123-1250
[9] Bougrain, F. and Haudeville, B. (2002). Innovation, Collaboration and
SMEs Internal Research Capacities, Research Policy, Vol. 31, pp735-
747
[10] Danneels, E. (2002). The Dynamic of Product Innovation and Firm
Competences, Strategic Management Journal, Vol. 23, pp1095-1121
[11] Galende, J. and Fuente, J.M. (2003). Internal Factors Determining a
Firm-s Innovative Behavior, Research Policy, Vol. 32, pp715-736
[12] Teece, D.J. (1996). Firm Organization, Industrial Structure, and
Technological Innovation, Journal of Economic Behavior &
Organization, Vol. 31, pp193-224
[13] Evangelista, R. Perani, G., Raptit, F. and Archibugi, D. (1997). Nature
and Impact of Innovation in Manufacturing: Some Evidence from the
Italian Innovation Survey, Research Policy, Vol. 26, pp521-536
[14] Yam, C.M. R., Lo, W., Tang, P.Y. and Sun, H.Y. (2003), Enhancement
of Global Competitiveness for Hong Kong/China Manufacturing
Industries through i-Agile Virtual Enterprising, International Journal of
Technology Management, Vol. 26, No. 1, pp88-95
[15] Lo, W.L., Naidu, G.M. and Yam, C.M. (2001). Dynamic and Responsive
Firm Strategy : A Case Study of Hong Kong and China Collaborations
in Pearl River Delta, Journal of Global Marketing, Vol. 14, No.4 .
[16] Fu, J and Shi, P (1995). Technological accumulation versus technology
innovation a new approach of Chinese firms; technological innovation
form technological accumulation dimension, Sun-Yat-Sen Management
Review, Vol. 3 No 4 pp112-121
[17] Evangelista, R. Iammarino, S. Mastrostefano V. and Silvani A.(2001),
Measuring the Regional Dimension of Innovation: Lessons from the
Italian Innovation Survey, Technovation, Vol. 21 No 11, pp733-745.
[18] Wu, G. (2001). Technological Innovation Management, Tsinghua
University Press, Beijing (in Chinese)
[19] Wan, D., Ong, C.H. and Lee, F. (2003). Determinants of Firm
Innovation in Singapore, Technovation, Vol. 25, No. 3, pp261-273
[20] Rothwell, R. (1983), Innovation and Firm Size: A Case of Dynamic
Complementarity; or, Is Small Really so Beautiful?, Journal of General
Management, Vol. 8 No.3, pp.5-25
[21] Pavitt, K., Robson, M. and Townsend, J. (1987). The Size Distribution
of Innovating Firms in the UK 1945-1983, Journal of Industrial
Economics, Vol. 35, pp279-315
[22] Tsai, Wenpin (2001). Knowledge transfer in intraorganizational
networks: Effects of network position and absorptive capacity on
business unit innovation and performance, Academy of Management
Journal, Vol. 44, No. 5, pp996-1004
[23] Caloghirou, Y., Kastelli, I. and Tsakanika, A. (2004). Internal
Capabilities and External Knowledge Sources: Complements or
Substitutes for Innovative Performance?, Technovation, Vol. 24, pp29-
39
[24] Hong Kong Trade Development Council, HKTDC (2000). Challenges
and Opportunities for Hong Kong-s Electronics Industries: Current
Status and Future Prospects, Hong Kong Trade Development Council,
Hong Kong
[25] SQW (Asia) Ltd, Rapra International Limited, Hong Kong Plastics
Technology Centre (2001). Techno-economic and market research study
on Hong Kong-s Plastics Industry, 1999/2000, Hong Kong Trade
Development Council, Hong Kong
[26] Armstrong, J. and Overton, T. (1977). Estimating Nonresponse Bias in
Mail Surveys. Journal of Marketing Research, Vol. 14, No. 3, pp396-
402
[27] Churchill, G.A. (1979). A Paradigm for Developing Better Measures of
Marketing Constructs, Journal of Marketing Research, Vol. 16, No. 2,
pp64-73
[28] Kline, R.B. (1998), Principles and Practice of Structural Equation
Modeling, The Guilford Press, New York
[29] Bentler, P.M. (1990). Comparative Fit Indexes in Structural Models,
Psychological Bulletin, Vol. 107, No. 2, pp238-246
[30] Byrne, B.M. (2002). Structural Equation Modeling with AMOS: Basic
Concepts, Applications and Programming, Lawrence Erlbaum
Associates, London
[31] Cohen, W.M. and Levinthal, F.A. (1990). Absorptive capacity a new
perspective on learning and innovation, Administrative Science
Quarterly, Vol. 35 No. 1, pp128-152
[32] Carmen, C.O, María de la Luz, F.A and Salustiano, M.F. (2006).
Influence of top management team vision and work team characteristics
on innovation: The Spanish case, European Journal of Innovation
Management, Vol. 9, No. 2; pp179-202
[33] Dosi, G., Faillo, M., and Marengo, L. (2008). Organizational
Capabilities, Patterns of Knowledge Accumulation and Governance
Structures in Business Firms: An Introduction, Organization Studies,
Vol. 29, No. 8/9, pp1165-1211
@article{"International Journal of Business, Human and Social Sciences:60452", author = "Richard C.M. Yam and William Lo and Esther P.Y. Tang and Antonio and K.W. Lau", title = "Technological Innovation Capabilities and Firm Performance", abstract = "Technological innovation capability (TIC) is
defined as a comprehensive set of characteristics of a firm that
facilities and supports its technological innovation strategies.
An audit to evaluate the TICs of a firm may trigger
improvement in its future practices. Such an audit can be used
by the firm for self assessment or third-party independent
assessment to identify problems of its capability status. This
paper attempts to develop such an auditing framework that
can help to determine the subtle links between innovation
capabilities and business performance; and to enable the
auditor to determine whether good practice is in place. The
seven TICs in this study include learning, R&D, resources
allocation, manufacturing, marketing, organization and
strategic planning capabilities. Empirical data was acquired
through a survey study of 200 manufacturing firms in the
Hong Kong/Pearl River Delta (HK/PRD) region. Structural
equation modelling was employed to examine the
relationships among TICs and various performance indicators:
sales performance, innovation performance, product
performance, and sales growth. The results revealed that
different TICs have different impacts on different
performance measures. Organization capability was found to
have the most influential impact. Hong Kong manufacturers
are now facing the challenge of high-mix-low-volume
customer orders. In order to cope with this change, good
capability in organizing different activities among various
departments is critical to the success of a company.", keywords = "Hong Kong/Pearl River Delta, Innovationaudit, Manufacturing, Technological innovation capability", volume = "4", number = "6", pages = "1274-9", }
