AHCI RESEARCH GROUP
Publications
Papers published in international journals,
proceedings of conferences, workshops and books.
OUR RESEARCH
Scientific Publications
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Here you can find the complete list of our publications.
You can use the tag cloud to select only the papers dealing with specific research topics.
You can expand the Abstract, Links and BibTex record for each paper.
You can use the tag cloud to select only the papers dealing with specific research topics.
You can expand the Abstract, Links and BibTex record for each paper.
2024
Liang, Q.; Chen, Y.; Li, W.; Lai, M.; Ni, W.; Qiu, H.
In: L., Zhang; W., Yu; Q., Wang; Y., Laili; Y., Liu (Ed.): Commun. Comput. Info. Sci., pp. 12–24, Springer Science and Business Media Deutschland GmbH, 2024, ISBN: 18650929 (ISSN); 978-981973947-9 (ISBN).
Abstract | Links | BibTeX | Tags: Augmented Reality, Glass, Identity recognition, Internet of Things, Internet of things technologies, IoT, Language learning, Learning systems, LLM, Object Detection, Objects detection, Open Vocabulary Object Detection, Recognition systems, Semantics, Telephone sets, Translation (languages), Translation systems, Visual languages, Wearable computers, Wearable device, Wearable devices
@inproceedings{liang_iknowisee_2024,
title = {iKnowiSee: AR Glasses with Language Learning Translation System and Identity Recognition System Built Based on Large Pre-trained Models of Language and Vision and Internet of Things Technology},
author = {Q. Liang and Y. Chen and W. Li and M. Lai and W. Ni and H. Qiu},
editor = {Zhang L. and Yu W. and Wang Q. and Laili Y. and Liu Y.},
url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85200663840&doi=10.1007%2f978-981-97-3948-6_2&partnerID=40&md5=a0324ba6108674b1d39a338574269d60},
doi = {10.1007/978-981-97-3948-6_2},
isbn = {18650929 (ISSN); 978-981973947-9 (ISBN)},
year = {2024},
date = {2024-01-01},
booktitle = {Commun. Comput. Info. Sci.},
volume = {2139 CCIS},
pages = {12–24},
publisher = {Springer Science and Business Media Deutschland GmbH},
abstract = {AR glasses used in daily life have made good progress and have some practical value.However, the current design concept of AR glasses is basically to simply port the content of a cell phone and act as a secondary screen for the phone. In contrast, the AR glasses we designed are based on actual situations, focus on real-world interactions, and utilize IoT technology with the aim of enabling users to fully extract and utilize the digital information in their lives. We have created two innovative features, one is a language learning translation system for users to learn foreign languages, which integrates a large language model with an open vocabulary recognition model to fully extract the visual semantic information of the scene; and the other is a social conferencing system, which utilizes the IoT cloud, pipe, edge, and end development to reduce the cost of communication and improve the efficiency of exchanges in social situations. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.},
keywords = {Augmented Reality, Glass, Identity recognition, Internet of Things, Internet of things technologies, IoT, Language learning, Learning systems, LLM, Object Detection, Objects detection, Open Vocabulary Object Detection, Recognition systems, Semantics, Telephone sets, Translation (languages), Translation systems, Visual languages, Wearable computers, Wearable device, Wearable devices},
pubstate = {published},
tppubtype = {inproceedings}
}
AR glasses used in daily life have made good progress and have some practical value.However, the current design concept of AR glasses is basically to simply port the content of a cell phone and act as a secondary screen for the phone. In contrast, the AR glasses we designed are based on actual situations, focus on real-world interactions, and utilize IoT technology with the aim of enabling users to fully extract and utilize the digital information in their lives. We have created two innovative features, one is a language learning translation system for users to learn foreign languages, which integrates a large language model with an open vocabulary recognition model to fully extract the visual semantic information of the scene; and the other is a social conferencing system, which utilizes the IoT cloud, pipe, edge, and end development to reduce the cost of communication and improve the efficiency of exchanges in social situations. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.
2023
Joseph, S.; Priya, B. S.; Poorvaja, R.; Kumaran, M. Santhosh; Shivaraj, S.; Jeyanth, V.; Shivesh, R. P.
IoT Empowered AI: Transforming Object Recognition and NLP Summarization with Generative AI Proceedings Article
In: K.V., Arya; T., Wada (Ed.): Proc. IEEE Int. Conf. Comput. Vis. Mach. Intell., CVMI, Institute of Electrical and Electronics Engineers Inc., 2023, ISBN: 979-835030514-2 (ISBN).
Abstract | Links | BibTeX | Tags: 2D, 3D, Application program interface, Application Program Interface (API), Application program interfaces, Application programming interfaces (API), Application programs, Augmented Reality, Augmented Reality(AR), Automation, Cameras, Cost effectiveness, Domestic appliances, GenAl, Internet of Things, Internet of Things (IoT) technologies, Internet of things technologies, Language processing, Natural Language Processing, Natural language processing systems, Natural languages, Object Detection, Object recognition, Objects detection, Optical character recognition, Optical Character Recognition (OCR), Smartphones
@inproceedings{joseph_iot_2023,
title = {IoT Empowered AI: Transforming Object Recognition and NLP Summarization with Generative AI},
author = {S. Joseph and B. S. Priya and R. Poorvaja and M. Santhosh Kumaran and S. Shivaraj and V. Jeyanth and R. P. Shivesh},
editor = {Arya K.V. and Wada T.},
url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85189754688&doi=10.1109%2fCVMI59935.2023.10465077&partnerID=40&md5=9c1a9d7151c0b04bab83586f515d30aa},
doi = {10.1109/CVMI59935.2023.10465077},
isbn = {979-835030514-2 (ISBN)},
year = {2023},
date = {2023-01-01},
booktitle = {Proc. IEEE Int. Conf. Comput. Vis. Mach. Intell., CVMI},
publisher = {Institute of Electrical and Electronics Engineers Inc.},
abstract = {In anticipation of the widespread adoption of augmented reality in the future, this paper introduces an advanced mobile application that seamlessly integrates AR and IoT technologies. The application aims to make these cutting-edge technologies more affordable and accessible to users while highlighting their immense benefits in assisting with household appliance control, as well as providing interactive and educational experiences. The app employs advanced algorithms such as object detection, Natural Language Processing (NLP), and Optical Character Recognition (OCR) to scan the smartphone's camera feed. Upon identification, AR controls for appliances, their power consumption, and electric bill tracking are displayed. Additionally, the application makes use of APIs to access the internet, retrieving relevant 3D generative models, 360-degree videos, 2D images, and textual information based on user interactions with detected objects. Users can effortlessly explore and interact with the 3D generative models using intuitive hand gestures, providing an immersive experience without the need for additional hardware or dedicated VR headsets. Beyond home automation, the app offers valuable educational benefits, serving as a unique learning tool for students to gain hands-on experience. Medical practitioners can quickly reference organ anatomy and utilize its feature-rich functionalities. Its cost-effectiveness, requiring only installation, ensures accessibility to a wide audience. The app's functionality is both intuitive and efficient, detecting objects in the camera feed and prompting user interactions. Users can select objects through simple hand gestures, choosing desired content like 3D generative models, 2D images, textual information, 360-degree videos, or shopping-related details. The app then retrieves and overlays the requested information onto the real-world view in AR. In conclusion, this groundbreaking AR and IoT -powered app revolutionizes home automation and learning experiences, leveraging only a smartphone's camera, without the need for additional hardware or expensive installations. Its potential applications extend to education, industries, and health care, making it a versatile and valuable tool for a broad range of users. © 2023 IEEE.},
keywords = {2D, 3D, Application program interface, Application Program Interface (API), Application program interfaces, Application programming interfaces (API), Application programs, Augmented Reality, Augmented Reality(AR), Automation, Cameras, Cost effectiveness, Domestic appliances, GenAl, Internet of Things, Internet of Things (IoT) technologies, Internet of things technologies, Language processing, Natural Language Processing, Natural language processing systems, Natural languages, Object Detection, Object recognition, Objects detection, Optical character recognition, Optical Character Recognition (OCR), Smartphones},
pubstate = {published},
tppubtype = {inproceedings}
}
In anticipation of the widespread adoption of augmented reality in the future, this paper introduces an advanced mobile application that seamlessly integrates AR and IoT technologies. The application aims to make these cutting-edge technologies more affordable and accessible to users while highlighting their immense benefits in assisting with household appliance control, as well as providing interactive and educational experiences. The app employs advanced algorithms such as object detection, Natural Language Processing (NLP), and Optical Character Recognition (OCR) to scan the smartphone's camera feed. Upon identification, AR controls for appliances, their power consumption, and electric bill tracking are displayed. Additionally, the application makes use of APIs to access the internet, retrieving relevant 3D generative models, 360-degree videos, 2D images, and textual information based on user interactions with detected objects. Users can effortlessly explore and interact with the 3D generative models using intuitive hand gestures, providing an immersive experience without the need for additional hardware or dedicated VR headsets. Beyond home automation, the app offers valuable educational benefits, serving as a unique learning tool for students to gain hands-on experience. Medical practitioners can quickly reference organ anatomy and utilize its feature-rich functionalities. Its cost-effectiveness, requiring only installation, ensures accessibility to a wide audience. The app's functionality is both intuitive and efficient, detecting objects in the camera feed and prompting user interactions. Users can select objects through simple hand gestures, choosing desired content like 3D generative models, 2D images, textual information, 360-degree videos, or shopping-related details. The app then retrieves and overlays the requested information onto the real-world view in AR. In conclusion, this groundbreaking AR and IoT -powered app revolutionizes home automation and learning experiences, leveraging only a smartphone's camera, without the need for additional hardware or expensive installations. Its potential applications extend to education, industries, and health care, making it a versatile and valuable tool for a broad range of users. © 2023 IEEE.