Arquitetura para gerenciamento de dispositivos através de assistentes virtuais comandados por voz
Abstract
Management and configuration of home networks has become increasingly complex. One of the reasons for this is due to the increase in the number of devices connected to your infrastructure. The great variety of manufacturers and lack of standardization in the available features can lead users to make wrong configurations. Performing these settings can be even more challenging for people who have a disability. In view of this, the present work proposes a layered architecture, where it will be possible, by means of voice or text commands and using natural language, that complex configurations are carried out, without the need for advanced technical knowledge regarding the infrastructure or specificities of the network device.
References
Alexakis, G., Panagiotakis, S., Fragkakis, A., Markakis, E., and Vassilakis, K. (2019). Control of smart home operations using natural language processing, voice recognition and iot technologies in a multi-tier architecture. Designs, 3(3).
Alsudais, A. and Keller, E. (2017). Hey network, can you understand me? In 2017 IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS), pages 193-198.
Andreasson, O. et al. (2001). Iptables tutorial 1.2. 2. Copyright© 2001-2006 Oskar Andreasson, GNU Free Documentation License.
Austerjost, J., Porr, M., Riedel, N., Geier, D., Becker, T., Scheper, T., Marquard, D., Lindner, P., and Beutel, S. (2018). Introducing a virtual assistant to the lab: A voice user interface for the intuitive control of laboratory instruments. SLAS Technology, 23:476 - 482.
Fernandes, R., Paz, G., Kretuz, D., Mansilha, R., Jenuario, T., and Immich, R. (2020). S3as: uma solução de autenticação e autorização através de aplicativos de smartphones. Revista Eletrônica Argentina-Brasil de Tecnologias da Informação e da Comunicação, 3(1).
Fiorenza, M., Kreutz, D., Mansilha, R., Macedo, D., Feitosa, E., and Immich, R. (2021). Representação e aplicação de políticas de segurança em firewalls de redes híbridas. In Anais do XXXIX Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, pages 490-503, Porto Alegre, RS, Brasil. SBC.
Hamdan, O., Shanableh, H., Zaki, I., Al-Ali, A. R., and Shanableh, T. (2019). Iot-based interactive dual mode smart home automation. In 2019 IEEE International Conference on Consumer Electronics (ICCE), pages 1-2.
IBGE (2010). Censo demográfico 2010. Disponível em: [link]. Acesso em: 25 de jun. de 2021.
Immich, R., Villas, L., Bittencourt, L., and Madeira, E. (2019). Multi-tier edge-to-cloud architecture for adaptive video delivery. In 2019 7th International Conference on Future Internet of Things and Cloud (FiCloud), pages 23-30.
Jacobs, A., Pfitscher, R. J., Ferreira, R., and Granville, L. (2018). Refining network intents for self-driving networks. Proceedings of the Afternoon Workshop on Self-Driving Networks.
Jacobs, A. S., Pfitscher, R. J., Ribeiro, R. H., Ferreira, R. A., Granville, L. Z., and Rao, S. G. (2019). Deploying natural language intents with lumi. In Proceedings of the ACM SIGCOMM 2019 Conference Posters and Demos, SIGCOMM Posters and Demos '19, page 82-84, New York, NY, USA. Association for Computing Machinery.
Jivani, F. D., Malvankar, M., and Shankarmani, R. (2018). A voice controlled smart home solution with a centralized management framework implemented using ai and nlp. In 2018 International Conference on Current Trends towards Converging Technologies (ICCTCT), pages 1-5.
Kadali, B., Prasad, N., Kudav, P., and Deshpande, M. (2020). Home automation using chatbot and voice assistant. ITM Web of Conferences, 32:01002.
Lago, A. S., Dias, J. P., and Ferreira, H. S. (2021). Managing non-trivial internet-of-things systems with conversational assistants: A prototype and a feasibility experiment. Journal of Computational Science, 51:101324.
Longo, C. F., Santoro, C., and Santoro, F. F. (2019). Meaning extraction in a domotic assistant agent interacting by means of natural language. In 2019 IEEE 28th International Conference on Enabling Technologies: Infrastructure for Collaborative Enterprises (WETICE), pages 21-26.
Netfilter (2021). O projeto netfilter.org "iptables". Disponível em: https://www.netfilter.org/projects/iptables/index.html. Acesso em: 07 de out. 2021.
Noruwana, N. C., Owolawi, P. A., and Mapayi, T. (2020). Interactive iot-based speech-controlled home automation system. In 2020 2nd International Multidisciplinary Information Technology and Engineering Conference (IMITEC), pages 1-8.
Rani, P. J., Bakthakumar, J., Kumaar, B. P., Kumaar, U. P., and Kumar, S. (2017). Voice controlled home automation system using natural language processing (nlp) and internet of things (iot). In 2017 Third International Conference on Science Technology Engineering Management (ICONSTEM), pages 368-373.
Riftadi, M. and Kuipers, F. (2019). P4i/o: Intent-based networking with p4. In 2019 IEEE Conference on Network Softwarization (NetSoft), pages 438-443.
Rodrigues, D. O., Santos, F. A., Filho, G. P. R., Akabane, A. T., Cabral, R., Immich, R., Jr., W. L., da Cunha, F. D., Guidoni, D. L., Silva, T. H., do Rosário, D., Cerqueira, E., Loureiro, A. A. F., and Villas, L. A. (2019). Computação urbana da teoria à prática: Fundamentos, aplicações e desafios. CoRR, abs/1912.05662.
Tian, B., Zhang, X., Zhai, E., Liu, H. H., Ye, Q., Wang, C., Wu, X., Ji, Z., Sang, Y., Zhang, M., Yu, D., Tian, C., Zheng, H., and Zhao, B. Y. (2019). Safely and automatically updating in-network acl configurations with intent language. In Proceedings of the ACM Special Interest Group on Data Communication, SIGCOMM '19, page 214-226, New York, NY, USA. Association for Computing Machinery.
Titara, D. (2021). Casa conectada é tendência mundial. Revista Eletrolar News, 22(143):54-70.
Alsudais, A. and Keller, E. (2017). Hey network, can you understand me? In 2017 IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS), pages 193-198.
Andreasson, O. et al. (2001). Iptables tutorial 1.2. 2. Copyright© 2001-2006 Oskar Andreasson, GNU Free Documentation License.
Austerjost, J., Porr, M., Riedel, N., Geier, D., Becker, T., Scheper, T., Marquard, D., Lindner, P., and Beutel, S. (2018). Introducing a virtual assistant to the lab: A voice user interface for the intuitive control of laboratory instruments. SLAS Technology, 23:476 - 482.
Fernandes, R., Paz, G., Kretuz, D., Mansilha, R., Jenuario, T., and Immich, R. (2020). S3as: uma solução de autenticação e autorização através de aplicativos de smartphones. Revista Eletrônica Argentina-Brasil de Tecnologias da Informação e da Comunicação, 3(1).
Fiorenza, M., Kreutz, D., Mansilha, R., Macedo, D., Feitosa, E., and Immich, R. (2021). Representação e aplicação de políticas de segurança em firewalls de redes híbridas. In Anais do XXXIX Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, pages 490-503, Porto Alegre, RS, Brasil. SBC.
Hamdan, O., Shanableh, H., Zaki, I., Al-Ali, A. R., and Shanableh, T. (2019). Iot-based interactive dual mode smart home automation. In 2019 IEEE International Conference on Consumer Electronics (ICCE), pages 1-2.
IBGE (2010). Censo demográfico 2010. Disponível em: [link]. Acesso em: 25 de jun. de 2021.
Immich, R., Villas, L., Bittencourt, L., and Madeira, E. (2019). Multi-tier edge-to-cloud architecture for adaptive video delivery. In 2019 7th International Conference on Future Internet of Things and Cloud (FiCloud), pages 23-30.
Jacobs, A., Pfitscher, R. J., Ferreira, R., and Granville, L. (2018). Refining network intents for self-driving networks. Proceedings of the Afternoon Workshop on Self-Driving Networks.
Jacobs, A. S., Pfitscher, R. J., Ribeiro, R. H., Ferreira, R. A., Granville, L. Z., and Rao, S. G. (2019). Deploying natural language intents with lumi. In Proceedings of the ACM SIGCOMM 2019 Conference Posters and Demos, SIGCOMM Posters and Demos '19, page 82-84, New York, NY, USA. Association for Computing Machinery.
Jivani, F. D., Malvankar, M., and Shankarmani, R. (2018). A voice controlled smart home solution with a centralized management framework implemented using ai and nlp. In 2018 International Conference on Current Trends towards Converging Technologies (ICCTCT), pages 1-5.
Kadali, B., Prasad, N., Kudav, P., and Deshpande, M. (2020). Home automation using chatbot and voice assistant. ITM Web of Conferences, 32:01002.
Lago, A. S., Dias, J. P., and Ferreira, H. S. (2021). Managing non-trivial internet-of-things systems with conversational assistants: A prototype and a feasibility experiment. Journal of Computational Science, 51:101324.
Longo, C. F., Santoro, C., and Santoro, F. F. (2019). Meaning extraction in a domotic assistant agent interacting by means of natural language. In 2019 IEEE 28th International Conference on Enabling Technologies: Infrastructure for Collaborative Enterprises (WETICE), pages 21-26.
Netfilter (2021). O projeto netfilter.org "iptables". Disponível em: https://www.netfilter.org/projects/iptables/index.html. Acesso em: 07 de out. 2021.
Noruwana, N. C., Owolawi, P. A., and Mapayi, T. (2020). Interactive iot-based speech-controlled home automation system. In 2020 2nd International Multidisciplinary Information Technology and Engineering Conference (IMITEC), pages 1-8.
Rani, P. J., Bakthakumar, J., Kumaar, B. P., Kumaar, U. P., and Kumar, S. (2017). Voice controlled home automation system using natural language processing (nlp) and internet of things (iot). In 2017 Third International Conference on Science Technology Engineering Management (ICONSTEM), pages 368-373.
Riftadi, M. and Kuipers, F. (2019). P4i/o: Intent-based networking with p4. In 2019 IEEE Conference on Network Softwarization (NetSoft), pages 438-443.
Rodrigues, D. O., Santos, F. A., Filho, G. P. R., Akabane, A. T., Cabral, R., Immich, R., Jr., W. L., da Cunha, F. D., Guidoni, D. L., Silva, T. H., do Rosário, D., Cerqueira, E., Loureiro, A. A. F., and Villas, L. A. (2019). Computação urbana da teoria à prática: Fundamentos, aplicações e desafios. CoRR, abs/1912.05662.
Tian, B., Zhang, X., Zhai, E., Liu, H. H., Ye, Q., Wang, C., Wu, X., Ji, Z., Sang, Y., Zhang, M., Yu, D., Tian, C., Zheng, H., and Zhao, B. Y. (2019). Safely and automatically updating in-network acl configurations with intent language. In Proceedings of the ACM Special Interest Group on Data Communication, SIGCOMM '19, page 214-226, New York, NY, USA. Association for Computing Machinery.
Titara, D. (2021). Casa conectada é tendência mundial. Revista Eletrolar News, 22(143):54-70.
Published
2022-05-23
How to Cite
CESÁRIO, Honoré Vicente; GIRÃO, Gustavo; RIKER, André; DALMAZO, Bruno L.; IMMICH, Roger.
Arquitetura para gerenciamento de dispositivos através de assistentes virtuais comandados por voz. In: URBAN COMPUTING WORKSHOP (COURB), 6. , 2022, Fortaleza.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2022
.
p. 1-14.
ISSN 2595-2706.
DOI: https://doi.org/10.5753/courb.2022.223447.
