Conexion | Sistemas de | Funcione | Aprendizaje | ||
es y | Implementa | s | del | ||
Plataform | ción | Comanda | Ambiente | ||
as | das y | ||||
Adaptativ | |||||
as | |||||
Bidirectional | x | x | x | ||
Gigabit | |||||
transmission | |||||
over a single SI- | |||||
POF for home | |||||
networking | |||||
Ambient | x | x | x | ||
intelligence | |||||
system for | |||||
controlling | |||||
home | |||||
automation | |||||
installations | |||||
Energy | x | x | x | ||
Management in | |||||
Smart Spaces | |||||
through the | |||||
OPlatform | |||||
A Framework | x | x | |||
for Sign | |||||
Language | |||||
Sentence | |||||
Recognition by | |||||
Commonsense | |||||
Context | |||||
A system for | x | x | |||
user friendly | |||||
pervasive | |||||
computing | |||||
management | |||||
Optimal | x | x | x | ||
steering of a | |||||
Negative | |||||
Beamformer for | |||||
speech | |||||
enhancement | |||||
Comparative | x | x | |||
analysis of | |||||
indoor location | |||||
technologies for | |||||
monitoring of | |||||
elderly | |||||
A Review on | x | x | |||
Vision | |||||
Surveillance | |||||
Techniques in | |||||
Smart Home | |||||
Environments | |||||
Secure and | x | x | x | ||
reliable wide- | |||||
area power-line | |||||
communication | |||||
for soft-real- | |||||
time | |||||
applications | |||||
within REMPLI | |||||
An Integral and | x | x | |||
Networked | |||||
Home | |||||
Automation | |||||
Solution for | |||||
Indoor Ambient | |||||
Intelligence | |||||
x | x | ||||
Anticipating | |||||
Health Hazards | |||||
through an | |||||
Ontology- | |||||
Based, IoT | |||||
Domotic | |||||
Environment | |||||
x | x | ||||
Speaker | |||||
Authentication | |||||
for an Assistive | |||||
Domotic | |||||
System | |||||
KEY ISSUES | x | x | x | x | |
REGARDING | |||||
Collective | x | x | |||
domotic | |||||
intelligence | |||||
through | |||||
dynamic | |||||
injection of | |||||
semantic rules | |||||
Technology in | x | x | |||
Locomotion and | |||||
Domotic | |||||
Control for | |||||
Quadriplegic | |||||
Developing a | x | x | x | ||
Touchscreen- | |||||
based Domotic | |||||
Tool for Users | |||||
with Motor | |||||
Disabilities | |||||
Design of | x | x | |||
RFICs in 0.35 | |||||
µm Si/Siege | |||||
BiCMOS | |||||
technology for a | |||||
5 GHz domotic | |||||
transmitter | |||||
A ZigBee | x | ||||
wireless | |||||
domotic system | |||||
with Bluetooth | |||||
interface | |||||
Location of an | x | x | x | ||
inhabitant for | |||||
domotic | |||||
assistance | |||||
through fusion | |||||
of audio and | |||||
non-visual dat | |||||
Improving | x | x | x | ||
domotic | |||||
services | |||||
combining a | |||||
dialog system | |||||
and a resident | |||||
tracking system | |||||
Wireless | x | x | |||
domotic: an | |||||
enabling | |||||
platform for | |||||
granular | |||||
intelligence | |||||
Discovering and | x | x | |||
Accessing Peer- | |||||
to-peer Services | |||||
in UPnP-based | |||||
Federated | |||||
Domotic Islands | |||||
he DOG | x | x | |||
Gateway: | |||||
Enabling | |||||
Ontology-based | |||||
Intelligent | |||||
Domotic | |||||
Environments | |||||
Automatic | x | x | x | ||
Domotic Device | |||||
Interoperation | |||||
EMBEDDED | x | x | x | ||
POWERLINE | |||||
DSP MODEM | |||||
FOR – | |||||
DOMOTIC | |||||
SNMP | |||||
NETWORKIN | |||||
G IN | |||||
EUROPEAN | |||||
COUNTRIES | |||||
Domotic | x | x | |||
Embedded | |||||
System | |||||
Design of a | x | x | x | x | |
portable | |||||
touchscreen | |||||
interface for | |||||
powerline | |||||
domotic | |||||
systems | |||||
An Open | x | ||||
Standard | |||||
Solution for | |||||
Domotic | |||||
Interoperability | |||||
Adaptive | x | x | x | x | |
Domotic | |||||
System in | |||||
Green Buildings | |||||
Speaker | x | x | |||
Authentication | |||||
for an Assistive | |||||
Domotic | |||||
System | |||||
Tabla 1 Comparación de resultados
Denota el cuadro anterior la comparación bajo cuatro parámetros:
1. Conexiones y Plataformas.
2. Sistemas de Implementación.
3. Funciones Comandadas y Adaptativas.
4. Aprendizaje del Ambiente.
Donde se señala el alcance de cada trabajo, ya que en el caso de "Conexiones y plataformas" se encontraron resultados muy interesantes, pero netamente a la evolución de un sistema de comunicación. Sin embargo, en "Sistemas de implementación" se ofrece un estado referido a proyectos aplicados donde se obtuvieron resultados mediante pruebas.
En el caso de "Funciones comandadas y adaptativas", la finalidad es dar a conocer avances sobre tecnologías de control de una plataforma domótica. Y finalmente en
"Aprendizaje del ambiente", se puede observar que varios autores apuestan a sistemas que se auto programen mediante condiciones comunes de funcionamiento desde patrones de comportamiento.
En la actualidad los avances tecnológicos han ido mejorando mucho en todos los aspectos, principalmente en la domótica llegando a dar soluciones a problemas cotidianos. Con la domótica se ayuda a personas con necesidades especiales, se controla el consumo energético ya sea de viviendas, edificios; también mejora el confort del usuario. El único inconveniente de esta tecnología es su elevado costo, pero proporciona seguridad, bajo consumo energético, comodidad y diseños muy refinados.
El estado en que se encuentra la domótica nos deja claro que el campo de aplicación ya tiene cabida, lo primordial en este momento seria mejorar su interfaz y volverla amigable para el usuario; donde intervienen varios factores, entre ellos los que fueron analizados en la sección 7. Queda al descubierto varios de los temas que recientemente se han puesto al descubierto.
[1] P. U. o. B. B. R. I. H. Virginia Sandulescu Fac. of Autom. Control & Comput. Sci., «Speaker Authentication for an Assistive Domotic System,» International Conference on Control Systems and Computer Science, vol. 20th , pp. 27-29, 2015 .
[2] L. -. I.-I. D. M. d. M. David Antunes Institute for Systems and Robotics y J. Gaspar, «Improving domotic services combining a dialog system and a resident tracking system,» EUROCON – International Conference on Computer as a Tool (EUROCON), IEEE, pp. 27-29, 2011.
[3] U. C.-I. 5. F. F. P. Pedro Chahuara Laboratoire d'lnformatique de Grenoble y M. Vacher, «Location of an inhabitant for domotic assistance through fusion of audio and non-visual data,» International Conference on Pervasive Computing Technologies for Healthcare (PervasiveHealth) and Workshops, vol. 5th , pp. 23-26, 2011.
[4] E. F. R. Lidia Dobrescu "POLITEHNICA" University of Bucharest,
«Domotic embedded system,» Electronics, Computers and Artificial Intelligence (ECAI), International Conference on, vol. 6th, pp. 23-25 , 2014.
[5] V. C. G. M. Juan Pablo Cofre Pontificia Univ. Catolica de Valparaiso, C. Rusu, I. Mercado, R. Inostroza y C. Jimenez, «Developing a Touchscreen-based Domotic Tool for Users with Motor Disabilities,»
[6] E. P. C. U. s. 1. C. S. J. L. R.-G. Pablo Valiente-Rocha Universidad de Extremadura. Quercus Software Engineering Group y A. Lozano-Tello, «Ambient intelligence system for controlling home automation installations,» Iberian Conference on Information Systems and Technologies, vol. 5th , pp. 16-19 , 2010.
[7] U. o. C. C. R. C. B. Marius Brezovan Dept. of Comput. & Inf. Technol., «A Review on Vision Surveillance Techniques in Smart Home Environments,» International Conference on Control Systems and Computer Science, vol. 19th, pp. 29-31, 2013 .
[8] U. o. M. M. I. S. B. Bruno Apolloni Dept. of Comput. Sci., G. L. Galliani y L. Valerio, «Wireless Domotic: An Enabling Platform for Granular Intelligence,» International Conference on Future Information Technology, vol. 5th , pp. 21-23, 2010 .
[9] U. d. B. P. G. Paolo Bellavista Dipartimento di Informatica: Scienze e Ingegneria, C. Giannelli, G. Toniolo y A. Zoccola, «Discovering and accessing peer-to-peer services in UPnP-based federated Domotic Islands,» IEEE Transactions on Consumer Electronics, Vols. %1 de %2 (Volume:58 , Issue: 3 ), 2012.
[10] T. I. E. C. Dario Bonino Politecnico di Torino y F. Corno, «The DOG gateway: enabling ontology-based intelligent domotic environments,»
IEEE Transactions on Consumer Electronics , Vols. %1 de %2(Volume:54 , Issue: 4 ), 2008.
[11] C. D. d. A. 2. T. 1. I. D. Z. A. Antonino Politecnico di Torino y R. Gaudino, «Bidirectional Gigabit transmission over a single SI-POF for home networking,» Future Network & Mobile Summit, pp. 16-18, 2010
[12] H. I. C. I. (. M. S. J. R. S. de Miguel-Bilbao Telemed. & e-Health Res. Unit, J. García, F. López, P. García-Sagredo y V. Ramos, «Comparative analysis of indoor location technologies for monitoring of elderly,» e-Health Networking, Applications & Services (Healthcom), IEEE International Conference on, vol. 15th, pp. 9-12, 2013 .
[13] G. T. S. G. Bumiller IAd GmbH, G. Pratl y A. Treytl, «Secure and reliable wide-area power-line communication for soft-real-time applications within REMPLI,» International Symposium on Power Line Communications and Its Applications, pp. 6-8, 2005.
[14] N. R. C. o. I. P. I. D. R. Vittorio Miori Inst. of Inf. Sci. & Technol. (ISTI), «Anticipating Health Hazards through an Ontology-Based, IoT Domotic Environment,» Innovative Mobile and Internet Services in Ubiquitous Computing (IMIS), Sixth International Conference on, pp. 4-6 , 2012.
[15] U. P. d. M. S. S. Lorente Telecommun. Eng. Sch., «Key issues regarding Domotic applications,» Information and Communication Technologies: From Theory to Applications. Proceedings. International Conference on, pp. 19-23 , 2004.
[16] N. Z. G. C. Z. P. Panagiotis Kasnesis Sch. of Electr. Eng. y I. S. Venieris, «Collective domotic intelligence through dynamic injection of
semantic rules,» IEEE International Conference on Communications (ICC), pp. 8-12, 2015.
[17] D. R.-G. J. A. Piedra-Fernández y L. Iribarne, «Adaptive Domotic System in Green Buildings,» Advanced Applied Informatics (IIAI-AAI), IIAI International Congress on Date of Conference:, vol. 4th, pp. 12-16 , 2015.
[18] R. I. M. M. Mario Caruso Sapienza Univ. di Roma, A. Cerocchi, V. Forte, L. Querzoni y R. Baldoni, «Energy Management in Smart Spaces through the OPlatform,» Intelligent Networking and Collaborative Systems (INCoS), International Conference on, pp. 10-12 , 2014.
[19] P. R. R. Ignazio Infantino Ist. di Calcolo e Red ad Alte Prestazioni y S. Gaglio, «A Framework for Sign Language Sentence Recognition by Commonsense Context,» IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews) , Vols. %1 de %2(Volume:37 , Issue: 5 ), 2007.
[20] I. Elena Mainardi Engineering Department of the University of Ferrara, «Design of a portable touchscreen interface for powerline domotic systems,» IEEE International Conference on Automation Science and Engineering Date of Conference:, pp. 23-26 , 2008.
[21] U. d. S. S. V. L. M. Giordano Dipt. di Mat. e Inf., G. Polese y G. Tortora, «A system for user friendly pervasive computing management,» Intelligent Environments. IE 07. IET International Conference on, vol. 3rd, pp. 24-25, 2007.
[22] M. A. Z.-I. U. o. M. J. Santa y A. F. Gomez-Skarmeta, «An Integral and Networked Home Automation Solution for Indoor Ambient Intelligence,» IEEE Pervasive Computing, Vols. %1 de %2 (Volume:9 , Issue: 4 ), 2010.
[23] I. N. R. C. P. I. L. T. V. Miori Inf. Sci. & Technol. Inst., M. Manca y G. Tolomei, «V. Miori Inf. Sci. & Technol. Inst., Italian Nat. Res. Council, Pisa, Italy L. Tarrini ; M. Manca ; G. Tolomei,» IEEE Transactions on Consumer Electronics , Vols. %1 de %2(Volume:52 , Issue: 1 ), 2008.
[24] D. B. D. d. A. e. I. o. t. P. d. T. E. Castellina y F. Corno, «Automatic domotic device interoperation,» IEEE Transactions on Consumer Electronics (, Vols. %1 de %2Volume:55 , Issue: 2 ), 2009.
[25] I. Elena Mainardi Engineering Department of the University of Ferrara, «Design of a portable touchscreen interface for powerline domotic systems,» IEEE International Conference on Automation Science and Engineering Date of Conference:, pp. 23-26, 2008 .
[26] P. U. I. M. B. F. Alimenti Dept. of Electron. & Inf. Eng., R. Codeluppi, V. Palazzari, M. Pifferi, L. Roselli, A. Scorzoni y F. Fantini, «Design of RFICs in 0.35 /spl mu/m Si/SiGe BiCMOS technology for a 5GHz domotic transmitter,» The European Conference on Wireless Technology, pp. 3-4, 2005.
[27] F. J. C. E. M. Rubio y A. Valdovinos, «Embedded powerline DSP modem for domotic SNMP networking in European countries,» IEEE Transactions on Consumer Electronics, Vols. %1 de %2 (Volume:48 , Issue: 4 ), 2002.
[28] I. E. P. L. V. Eurico Leite ESTSetúbal, V. F. Pires, F. D. Cardoso, A. J. Pires y J. F. Martins, «A ZigBee wireless domotic system with Bluetooth interface,» IECON – Annual Conference of the IEEE Industrial Electronics Society, vol. 40th, 2014.
[29] U. P. d. M. B. d. M. S. A. A. Pedro Gómez Dept. de Arquit. y Tecnol. de Sist. Inf., R. Martínez, V. Nieto y V. Rodellar, «Optimal steering of a Negative Beamformer for speech enhancement,» Signal Processing Conference, European, vol. 11th , pp. 3-6 , 2002.
[30] P. U. o. B. B. R. I. H. Virginia Sandulescu Fac. of Autom. Control & Comput. Sci., «Speaker Authentication for an Assistive Domotic System,» International Conference on Control Systems and Computer Science, vol. 20th , pp. 27-29, 2015 .
[31] U. M. N. G. B. C. W. A. Mauricio Plaza Dept. of Mechatron. y O. Aviles, «Technology in Locomotion and Domotic Control for Quadriplegic,» Biomedical Engineering Conference (SBEC), Southern, vol. 29th, pp. 3-5 , 2013 .
Biografía
Rodrigo Nikolas Torres Luna nació el 4 de enero de 1997 estudios secundarios en Colegio Técnico Salesiano y sus estudios universitarios cursando en la universidad Politécnica Salesiana en la carrera de Ingeniería Eléctrica.
Edgar Isaac Ulloa Torres nació el 22 de julio de 1996 estudios secundarios en Colegio Técnico Salesiano y sus estudios universitarios cursando en la universidad Politécnica Salesiana en la carrera de Ingeniería Eléctrica.
Autor:
Nikolas Torres,
Isaac Ulloa,
Universidad Politécnica Salesiana
Analógica II-Grupo # 2
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