Patents are the largest source of technological information. Patent are given to the inventor as a reward for its innovation in the form of the exclusive right of the monopoly for a period of 20 years from the priority date of the invention. Due to advancement in the IT sector and internet, now these valuable documents are in the reach of the general public. Any person skilled in the art can go through various patent databases and after a search can get the patent document of their need. There are different patent databases viz, USPTO, EPO, JPO, etc freely open for the public access. If we go through the patents related to a specific technological area, we will be able to find the lots of information about the life cycle of the technological innovation viz.,
o evolutionary path of a specific technology,
o technological development,
o technological diversification,
o technology merges,
o major players in specific technological area,
o key points of the specific technology,
“The World Intellectual Property Organisation (WIPO) revealed that 90% to 95% of all the world's inventions can be found in patented documents.”
Patent analysis can reveals very valuable informations, which is not available anywhere. After patent search the crucial part is the patent analysis, and one have to be very concise about their objective of the study. The information in the patent documents can be utilized in different form according to the need and mapped accordingly to get the picture of the entire analysis in snapshots.
Patent data can be used for the preparation of technological landscapes. Logistic mathematics and circle mathematics can be very useful in the plotting of the technological landscape. It can reveal the evolutionary trend of a technology, how it is evolved from a basic technology, along with the period of the technological diversification and its nature. These maps will also give the detailed overview of the merging of the different technologies to give rise to break-through technologies. These types of maps will be very useful for the R&D personals to evaluate the position of their research and technology, and also they will find way to more innovate more advanced and valuable technology.
In the today's global context firms need to know what technologies can competitors choke easily, and may be attempting to. They also need to know the spaces in technologies where competition is intense, and the areas where competitors are concentrating their IP development and their R&D efforts. They need to be able to track patent acquisition and development strategies and chart out the competitive landscape. To evaluate technology before making any investment decision, firms need to know the pace of patenting activity in the technology, which patents embody fundamental ideas in the technology and how vulnerable the firm's technologies are to patent infringements. This will give them much needed information in deciding between technology development and technology acquisition.
The ability to extract relevant information from patent literature is a crucial success factor for anyone involved in technological innovation. The technology mapping technique's that can be used to transform patent information into knowledge that can influence decision-making.
Patents are an important source of technological intelligence that companies can use to gain strategic advantage. Technology Intelligence is a can be used for gathering, analyzing, forecasting, and managing external technology related information, including patent information. Computational patent mapping is a methodology for the development and application of a technology knowledgebase for technology and competitive intelligence. The primary deliverables of patent mapping is in the form of knowledge visualization through landscape and maps. These maps provide valuable intelligence on technology evolution/revolution, nature of various types of pioneering; big; pure; and emerging players, state-of-the-art assessment, etc.
These here types of technological maps will prove to be a valuable multiplier in R&D and commercialization activities, in various ways including the following: