Indian Journal of Innovations and Developments

Open Access Open Access  Restricted Access Subscription Access

Classification of Innovation Projects


Affiliations
1 Industrial Management Institution, Khorasan Razavi, Mashhad, Iran, Islamic Republic of
 

Today the only way to survive in competitive markets is through innovation and creativity, which play an important role in the success of an organization. In comparison with the conventional projects, innovative projects are challenging and impose enormous costs to companies and organizations, so classifying and breaking innovative projects can be worthwhile to reduce the risk of performing. From the managerial point of view, classification of innovative projects plays a significant role in reducing time and cost for companies. Over the past few years, the innovative process was considered by several researchers, but there is a gap between classification of innovative and conventional projects. In this research we try to answer this question; is there any factor to classify innovative projects? This paper attempts to explain a general classification of innovative project and their details in different field of science. The research design applied to this paper was content analysis. After reading this paper, you can classify all the innovative projects. Our aim is to achieve an overall model to explain and separate all innovative projects.

Keywords

Innovation, Innovative Project, Research Project, Technology Projects
User
Notifications

  • Acharya M, Dash GC & Singh LP (2000) Magnetic Field Effects on the Free Convection and Mass Transfer Flow Through Porous Medium with Constant Suction and Constant Heat Flux, Indian J. Pure Appl. Math. 31(1), 1- 18.

  • Carnahan P, Luther HA & Wilkes JO (1969) Applied Numerical Methods, John Wiley & Sons, USA.

  • Chamkha AJ (2004) Unsteady MHD Convective Heat and Mass Transfer Past A Semi-Infinite Vertical Permeable Moving Plate with Heat Absorption, Int. J. Engg. Sci, 42, 217-230.

  • Chen CK & Char MI (1998) Heat transfer of a continuous, stretching surface with suction or blowing, J. Math. Anal. Appl. 135(2), 568–580.

  • Danberg JE & Fansber KS (1976). Non similar solution for the flow in the boundary layer past a stretched wall, Quart. Appl. Math. 34, 305–311.

  • Elbashbeshy, EMA (1998) Heat transfer over a stretching surface with variable surface heat flux, J. Phys. D: Appl. Phys. 31, 1951–1954.

  • Erickson LE, Fan LT & Fox VG (1966) Heat and mass transfer on a moving continuous flat plate with suction or injection, Indust. Eng. Chem. 5, 19–25.

  • Gupta PS & Gupta AS (1977) Heat and mass transfer on a stretching sheet with suction or blowing, Canadian J. Chem. Engrg. 55, 744–746.

  • Helmy KA (1998) MHD Unsteady Free Convection Flow past a Vertical Porous Plate, ZAMM, 78(4), 225- 270.

  • Kristian Rautiainen, Maarit Nissinen, & Casper Lassenius (2000). Improving Multi-Project Management in Two Product Development Organizations. Proceedings of the Hawai’i International Conference On System Sciences, January 4-7, 2000, Maui, Hawaii

  • Muthucumaraswamy R & Kumar GS (2004) Heat and Mass Transfer Effects on Moving Vertical Plate in The Presence of Thermal Radiation, Theoret. Appl. Mech, 31(1), 35-46.

  • Rohsenow WM, Hartnett JP, & Cho YI (1998) (eds.), Handbook of Heat Transfer, 3rd ed., McGraw-Hill, New York, 1998.

  • Sahoo PK, Datta N & Biswal S (2003) Magnetohydrodynamic Unsteady Free Convection Flow Past an Infinite Vertical Plate With Constant Suction and Heat Sink, Indian J. Pure Appl. Math., 34(1), 145-155.

  • Sakiadis BC (1961) Boundary layer behaviour on continuous solid surfaces: I. The boundary layer equations for two-dimensional and axisymmetric flow, AIChE J. 7, 26–28.

  • Singh AK, Singh AK & Singh NP (2003) Heat And Mass Transfer In MHD Flow of a Viscous Fluid Past a Vertical Plate Under Oscillatory Suction Velocity, Indian. J. Pure Appl. Math., 34(3), 429-442.

  • Takhar HS, Gorla RSR, & Soundalgekar VM (1996) Radiation effects on MHD free convection flow of a gas past a semi-infinite vertical plate, Internat. J. Numer. Methods Heat Fluid Flow, 6(2), 77–83.

  • Vajravelu K & Hadjinicolaou, A (1997) Convective heat transfer in an electrically 10.conducting fluid at a stretching surface with uniform free stream, Internat. J. Engrg. Sci. 35, 12-13, 1237–1244.

  • Young JK (2000) Unsteady MHD Convective Heat Transfer Past A Semi-Infinite Vertical Porous Moving Plate with Variable Suction, Int. J. Engg. Sci, 38, 833- 845.


Abstract Views: 368

PDF Views: 72




  • Classification of Innovation Projects

Abstract Views: 368  |  PDF Views: 72

Authors

Mozhgan Entekhabi
Industrial Management Institution, Khorasan Razavi, Mashhad, Iran, Islamic Republic of
G. H. Abbas Arabshahi
Industrial Management Institution, Khorasan Razavi, Mashhad, Iran, Islamic Republic of

Abstract


Today the only way to survive in competitive markets is through innovation and creativity, which play an important role in the success of an organization. In comparison with the conventional projects, innovative projects are challenging and impose enormous costs to companies and organizations, so classifying and breaking innovative projects can be worthwhile to reduce the risk of performing. From the managerial point of view, classification of innovative projects plays a significant role in reducing time and cost for companies. Over the past few years, the innovative process was considered by several researchers, but there is a gap between classification of innovative and conventional projects. In this research we try to answer this question; is there any factor to classify innovative projects? This paper attempts to explain a general classification of innovative project and their details in different field of science. The research design applied to this paper was content analysis. After reading this paper, you can classify all the innovative projects. Our aim is to achieve an overall model to explain and separate all innovative projects.

Keywords


Innovation, Innovative Project, Research Project, Technology Projects

References