Patents have a maximum life of 20 years and, therefore, a 20-year potential monopoly. Patents that are just beginning their life and which have longer to run on the their potential monopoly position understandably will have more value. It is rare that a patent nearing the end of its term will cause a great threat to its competitors. It is almost certain that they will have devised technologies or products of their own by then that will not interfere with the patent owners monopoly position. In addition, one has to take into consideration the potential business life of a patent, i.e., the duration, which a patent is likely to be economically useful, if other subsequent patents are providing better alternatives to it.
A plant patent covers asexually reproducible plants (that is, through the use of grafts and cuttings), such as flowers. Sexually reproducible plants (that is, those that use pollination), can be monopolized under the Plant Protection Act. Both sexually and asexually reproducible plants can now also be monopolized by utility patent. Plant patents are comparatively recent innovations, the first one being granted in 1930. A plant patent is granted by the Government to an inventor (or the inventor's heirs or assigns) who has invented or discovered and asexually reproduced a distinct and new variety of plant, other than a tuber propagated plant or a plant found in an uncultivated state. The grant, which lasts for 20 years from the date of filing the application, protects the inventor's right to exclude others from asexually reproducing, selling, or using the plant so reproduced. This protection is limited to a plant in its ordinary meaning: (1) A living plant organism which expresses a set of characteristics determined by its single, genetic makeup or genotype, which can be duplicated through asexual reproduction, but which can not otherwise be "made" or "manufactured." (2) Sports, mutants, hybrids, and transformed plants are comprehended; sports or mutants may be spontaneous or induced. Hybrids may be natural, from a planned breeding program, or somatic in source. While natural plant mutants might have naturally occurred, they must have been discovered in a cultivated area. (3) Algae and macro fungi are regarded as plants, but bacteria are not. A utility patent would be filed for claims to plants, seeds, genes, etc. According to the USPTO, there were 959 plant patent applications filed in 2009.
Lee is IP Street's CEO. Art Coffey, a business strategist who took RLH public on the NYSE as its CFO, best known for his leadership as the President and Chief Executive Officer of Red Lion Hotels Corporation from 2003 to 2008, is COO & CFO. Tammy Krieger, Director of Product Management, was formerly in a leading role with Microsoft's patent group and brings expertise in data management, patent analysis and process optimization. John Vogel, Vice President of Engineering, leads the software development team, formerly co-founded and developed Saas companies such as Four Creeks. The team is backed by a board of directors that include Stacey Cowles (Cowles Company), Dennis Hopton (York Trade Limited of Hong Kong), George Nethercutt (former U.S. Representative), and Lee and Coffey. IP Street's advisory board includes Roger Cheng (Alibaba), Scott Hayden (Amazon), Shawn Clark (Microsoft), Dan Crouse (Lee & Hayes), John Murphy (T-Mobile), and Joseph Schappert, MD (PAML). The company is privately funded.
Yes, patents do relate to marketing strategy. A firm's brand power is a function of the belief that its products have sophisticated, state-of-the-art, and proprietary technology. Learn more how to identify the key technologies that are embedded into your brand promise.
Asexual reproduction is the propagation of a plant to multiply the plant without the use of genetic seeds to assure an exact genetic copy of the plant being reproduced. Any known method of asexual reproduction which renders a true genetic copy of the plant may be employed. Acceptable modes of asexual reproduction would include but may not be limited to: (1) rooting cuttings (2) apomictic seeds (3) grafting and budding (4) division (5) layering (6) bulbs (7) slips (8) rhizomes (9) corms (10) runners (11) tissue culture (12)nucellar embryos
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