Embedded Systems: A study guided by patents | Sistemas embebidos: Un estudio guiado por las patentes
Barra lateral del artículo
Contenido principal del artículo
Resumen
The electronic equipment industry grows an accelerated rate over years, driven mainly by the development of electronic devices intended for the comfort and convenience of the people, called embedded systems. Embedded systems are developed from a joint hardware and software is designed to perform specific tasks for which they were developed. The world market of this technology is very attractive, more demands of the industries, accelerated production and diversified. Annually, thousands of embedded devices are launched in the market, with the most varied forms and project proposals, involving various types of electronic components, software reuse and new programming codes. In this scenario, the objective of this article is to make a study of this technology based on the amount of patent applications filed in the patent databases of the National Institute of Industrial Property (INPI) in Brazil and the World Intellectual Property Organization (WIPO).
La industria de equipo electrónico crece a un ritmo acelerado durante años, impulsada principalmente por el desarrollo de dispositivos electrónicos para el confort y la comodidad de la gente, llamada sistemas embebidos. Sistemas embebidos se desarrollan de una conjunto de hardware y software está diseñado para realizar tareas específicas que desarrollaron. El mercado mundial de esta tecnología es muy atractivo, más exigencias de las industrias, acelerada producción y diversificado. Anualmente, miles de dispositivos embebidos se lanzan en el mercado, con las más variadas formas y propuestas de proyectos, que implican a varios tipos de componentes electrónicos, reutilización de software y nuevos códigos de programación. En este escenario, el objetivo de este artículo es hacer un estudio de esta tecnología basada en la cantidad de solicitudes de patente presentadas en las bases de datos de patentes de la propiedad del Instituto Nacional de la Industrial (INPI) de Brasil y el mundo organización propiedad intelectual (OMPI).
Descargas
Detalles del artículo
Citas
Ball, S. R. (2002). Embedded Microprocessor Systems: Real World Design. 3rd edition. Publisher: MCPros, EUA.
Barr, M. (1999). Programming embedded systems in C and C++. " O'Reilly Media, Inc.". Sebastopol, USA.
Barr, M. (2009). Real men program in C. Embedded Systems Design, 22(7), 3. USA.
Cancian, R. L., Stemmer, M. R., & Frohlich, A. A. M. (2007, September). New developments in EPOS tools for configuring and generating embedded systems. In 2007 IEEE Conference on Emerging Technologies and Factory Automation (EFTA 2007) (pp. 776-779). IEEE.
Carro, L., & Wagner, F. (2003). Capítulo 2 das Jornadas de Atualização em Informática.”. IN: XXII JAI 2003. (Org.), 45-94. Sistemas Computacionais Embarcados. Campinas: Sociedade Brasileira de Computação.
Corsaro, A., & Cytron, R. K. (2003, June). Efficient memory-reference checks for real-time java. In ACM SIGPLAN Notices (Vol. 38, No. 7, pp. 51-58). ACM. New York.
GVR. (2014). Grand View Research, Inc. – Market Research & Consulting. Embedded System Market Analysis by Product (Hardware, Software), By Application (Automotive, Telecommunication, Healthcare, Industrial, Consumer Electronics, Military & Aerospace) And Segment Forecasts To 2020. USA. Available in: http://www.grandviewresearch.com/industry-analysis/embedded-system-market. Accessed on: 04 September. 2016.
Heath, S. (2003). Embedded systems design. 2 ed. Elsevier.
IDC. (2011). International Data Corporation. Embedded systems market will double by 2015. USA. Available in: http://www.idc.com. Accessed on: 10 September. 2016.
INPI. (2016). National Institute of Industrial Property. Available at: http://www.inpi.gov.br/portal/. Accessed on: 10 September. 2016.
Jiménez, M, Palomera R., Couvertier, I. (2014). Introduction to Embedded Systems: Using Microcontrollers and the MSP430. Springer Science, Vol. 1, New York.
Klaus F. (2003). RFID Handbook: Fundamentals and Applications in Contactless Smart Cards and Identification, 2. ed., Wiley.
Lee, E. A. (2002). Embedded software. Advances in computers, 56, 55-95. M. Zelkowitz, Editor, Vol. 56, Academic Press, London.
Nebel, W., Oppenheimer, F., Schumacher, G., Kabous, L., Radetzki, M., & Putzke-Rí¶ming, W. (2001). Object-oriented specification and design of embedded hard real-time systems. In System-on-Chip Methodologies & Design Languages (pp. 285-296). Springer US.
Reis, C. (2004). Sistemas Operacionais para Sistemas Embarcados. Livro, 1º Ed. Editora: EDUFBA, Brasil.
Taurion, C. (2005). Software Embarcado - A nova onda da Informática. Brasport.
Turley, J. L. (2003). The essential guide to semiconductors. Prentice Hall Professional.
Wehrmeister, M. A., Freitas, E. P., Pereira, C. E., & Rammig, F. (2008, May). GenERTiCA: A tool for code generation and aspects weaving. In 2008 11th IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing (ISORC) (pp. 234-238). IEEE.
WIPO. (2016). World Intellectual Property Organization. Available at: http://www.wipo.int/portal/en/index.html. Accessed on: 15 September. 2016.
Wolf, M. (2012). Computers as components: principles of embedded computing system design. Elsevier.