Orkhan Amiraslanov | Azerbaijan State Oil Academy (original) (raw)
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Papers by Orkhan Amiraslanov
Ubiquitous Computing, 2018
International Symposium on Wearable Computers, Oct 8, 2018
We investigate the usefulness of information from a wearable eyetracker to detect physical activi... more We investigate the usefulness of information from a wearable eyetracker to detect physical activities during assembly and construction tasks. Large physical activities, like carrying heavy items and walking, are analysed alongside more precise, hand-tool activities like using a screwdriver. Statistical analysis of eye based features like fixation length and frequency of fixations show significant correlations for precise activities. Using this finding, we selected 10, calibration-free eye features to train a classifier for recognising up to 6 different activities. Frame-byframe and event based results are presented using data from an 8-person dataset containing over 600 activity events. We also evaluate the recognition performance when gaze features are combined with data from wearable accelerometers and microphones. Our initial results show a duration-weighted event precision and recall of up to 0.69 & 0.84 for independently trained recognition on precise activities using gaze. Thi...
Proceedings of the 2018 ACM International Joint Conference and 2018 International Symposium on Pervasive and Ubiquitous Computing and Wearable Computers, 2018
This demo presents an interactive experiment environment for physics and electrical engineering s... more This demo presents an interactive experiment environment for physics and electrical engineering students and aims to provide a deep insight into the basic electrical theories (i.e Ohm's, Kirchoff's law) using real-time sensing system with augmented-reality (AR) visualization enhancements. To this end, a system was designed to measure the current, voltage, AC frequency and RFID based 2D positioning. A mixed reality glass, HoloLens, was used to provide the visualization and augmentation. An application is designed for HoloLens to provide different visualization of nodal measurements and detected circuit schematic. Using this interactive experiment setting, the goal is to reduce the cognitive load of a learner while allowing more enjoyable and intuitive learning experience.
The Physics Teacher, 2020
IEEE Internet of Things Magazine, 2019
The Physics Teacher, 2019
Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing: Adjunct, 2016
We present in this paper, our initial attempt in wireless power transfer for powering up various ... more We present in this paper, our initial attempt in wireless power transfer for powering up various movable smart objects. Power supply is a core issue for every movable smart object. Two classical solutions to power such devices are either to plug the device or to use batteries. Plugging a movable device restricts its free movement and batteries need frequent replacement once drained. Wireless charging is an alternate solution to overcome these limitations. While state-of-the-art wireless charging solutions remain for smart phones with fixed sizes, we propose in this paper, a guideline for enabling wireless charging for smart objects of arbitrary dimensions, at the space where they are normally used. We validate the proposed guidelines with the help of an office chair as an example.
Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing: Adjunct, 2016
In this demo we aim to demonstrate final design and hardware implementation of our large and full... more In this demo we aim to demonstrate final design and hardware implementation of our large and fully flexible electroluminescent based 48 X 48 pixel display (ELD) panel. Each panel is 45 X 45 cm and they can be connected horizontally to increase overall area. EL is an enabling technology for highly flexible, robust and large-scale displays production. The display has a very simple layer structure and it can be printed manually without need for a specialized manufacturing facility. Due to the high voltage alternating field nature of an EL main complexity comes down to the driving circuitry. We also implemented a stackable, high voltage display driver circuit architecture to further ease the control and expansion of our display.
Proceedings of the 11th International Conference on Mobile and Ubiquitous Systems: Computing, Networking and Services, 2014
Proceedings of the 2017 ACM International Symposium on Wearable Computers
This paper explores the use of wearable eye-tracking to detect physical activities and location i... more This paper explores the use of wearable eye-tracking to detect physical activities and location information during assembly and construction tasks involving small groups of up to four people. Large physical activities, like carrying heavy items and walking, are analysed alongside more precise, hand-tool activities, like using a drill, or a screwdriver. In a first analysis, gazeinvariant features from the eye-tracker are classified (using Naive Bayes) alongside features obtained from wrist-worn accelerometers and microphones. An evaluation is presented using data from an 8-person dataset containing over 600 physical activity events, performed under real-world (noisy) conditions. Despite the challenges of working with complex, and sometimes unreliable, data we show that event-based precision and recall of 0.66 and 0.81 respectively can be achieved by combining all three sensing modalities (using experiment independent training, and temporal smoothing). In a further analysis, we apply ...
In this work, we present and evaluate a concept for using an integrated environment sensor as a w... more In this work, we present and evaluate a concept for using an integrated environment sensor as a wearable spirometer. Unlike a standard spirometer that by design is fairly bulky, our device can be unobtrusively integrated into various configurations suitable for long-term use in everyday settings (open headset, regular face mask, and professional sports mask). The sensor measures the transient change in air pressure, humidity and temperature in front of wearers’ mouth and nostrils. We present our hardware design and signal analysis methods needed to extract breathing rate information. We compare the results with a standard spirometer. Moreover, a calibration between the BME280 sensor and the spirometer is performed, having both working in parallel. We show that our approach is able to distinguish between normal breaths and deep breaths, as well as to capture the period and magnitude of the breath cycles, with a wearable device that can be used in everyday scenarios, as well as sport ...
Proceedings of the 2018 ACM International Symposium on Wearable Computers, 2018
... Digital Library logo Take a look at the new version of this page: [ beta version ]. Tell us w... more ... Digital Library logo Take a look at the new version of this page: [ beta version ]. Tell us what you think. Control Engineering: A Modern Approach, 1st edition. Purchase this Book. Source, Pages: 494. Medium: Textbook Hardcover. Year of Publication: 1995. ISBN:0030134897. ...
Research Library. Library Home | Catalog | Journals | Photon | PPA | Labwide | SPIRES | Contact U... more Research Library. Library Home | Catalog | Journals | Photon | PPA | Labwide | SPIRES | Contact Us. Library Services. Research. Borrowing. Training. Request Form. Remote Access. SU Library Cards. Community Pages. Photon Science. Particle Physics and Astrophysics. ...
Berlin, Germany: Springer-Verlag, Jan 1, 1995
Control Systems Magazine, IEEE, Jan 1, 1999
For batch-mode processing/cxperimentation, shown in Fig. 1, the remote user downloads the set or ... more For batch-mode processing/cxperimentation, shown in Fig. 1, the remote user downloads the set or historical reference inputs to the server that operates the experiment. The servcr either has a set of predetermined controller structures (with variable parameters) or can accept ...
Ubiquitous Computing, 2018
International Symposium on Wearable Computers, Oct 8, 2018
We investigate the usefulness of information from a wearable eyetracker to detect physical activi... more We investigate the usefulness of information from a wearable eyetracker to detect physical activities during assembly and construction tasks. Large physical activities, like carrying heavy items and walking, are analysed alongside more precise, hand-tool activities like using a screwdriver. Statistical analysis of eye based features like fixation length and frequency of fixations show significant correlations for precise activities. Using this finding, we selected 10, calibration-free eye features to train a classifier for recognising up to 6 different activities. Frame-byframe and event based results are presented using data from an 8-person dataset containing over 600 activity events. We also evaluate the recognition performance when gaze features are combined with data from wearable accelerometers and microphones. Our initial results show a duration-weighted event precision and recall of up to 0.69 & 0.84 for independently trained recognition on precise activities using gaze. Thi...
Proceedings of the 2018 ACM International Joint Conference and 2018 International Symposium on Pervasive and Ubiquitous Computing and Wearable Computers, 2018
This demo presents an interactive experiment environment for physics and electrical engineering s... more This demo presents an interactive experiment environment for physics and electrical engineering students and aims to provide a deep insight into the basic electrical theories (i.e Ohm's, Kirchoff's law) using real-time sensing system with augmented-reality (AR) visualization enhancements. To this end, a system was designed to measure the current, voltage, AC frequency and RFID based 2D positioning. A mixed reality glass, HoloLens, was used to provide the visualization and augmentation. An application is designed for HoloLens to provide different visualization of nodal measurements and detected circuit schematic. Using this interactive experiment setting, the goal is to reduce the cognitive load of a learner while allowing more enjoyable and intuitive learning experience.
The Physics Teacher, 2020
IEEE Internet of Things Magazine, 2019
The Physics Teacher, 2019
Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing: Adjunct, 2016
We present in this paper, our initial attempt in wireless power transfer for powering up various ... more We present in this paper, our initial attempt in wireless power transfer for powering up various movable smart objects. Power supply is a core issue for every movable smart object. Two classical solutions to power such devices are either to plug the device or to use batteries. Plugging a movable device restricts its free movement and batteries need frequent replacement once drained. Wireless charging is an alternate solution to overcome these limitations. While state-of-the-art wireless charging solutions remain for smart phones with fixed sizes, we propose in this paper, a guideline for enabling wireless charging for smart objects of arbitrary dimensions, at the space where they are normally used. We validate the proposed guidelines with the help of an office chair as an example.
Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing: Adjunct, 2016
In this demo we aim to demonstrate final design and hardware implementation of our large and full... more In this demo we aim to demonstrate final design and hardware implementation of our large and fully flexible electroluminescent based 48 X 48 pixel display (ELD) panel. Each panel is 45 X 45 cm and they can be connected horizontally to increase overall area. EL is an enabling technology for highly flexible, robust and large-scale displays production. The display has a very simple layer structure and it can be printed manually without need for a specialized manufacturing facility. Due to the high voltage alternating field nature of an EL main complexity comes down to the driving circuitry. We also implemented a stackable, high voltage display driver circuit architecture to further ease the control and expansion of our display.
Proceedings of the 11th International Conference on Mobile and Ubiquitous Systems: Computing, Networking and Services, 2014
Proceedings of the 2017 ACM International Symposium on Wearable Computers
This paper explores the use of wearable eye-tracking to detect physical activities and location i... more This paper explores the use of wearable eye-tracking to detect physical activities and location information during assembly and construction tasks involving small groups of up to four people. Large physical activities, like carrying heavy items and walking, are analysed alongside more precise, hand-tool activities, like using a drill, or a screwdriver. In a first analysis, gazeinvariant features from the eye-tracker are classified (using Naive Bayes) alongside features obtained from wrist-worn accelerometers and microphones. An evaluation is presented using data from an 8-person dataset containing over 600 physical activity events, performed under real-world (noisy) conditions. Despite the challenges of working with complex, and sometimes unreliable, data we show that event-based precision and recall of 0.66 and 0.81 respectively can be achieved by combining all three sensing modalities (using experiment independent training, and temporal smoothing). In a further analysis, we apply ...
In this work, we present and evaluate a concept for using an integrated environment sensor as a w... more In this work, we present and evaluate a concept for using an integrated environment sensor as a wearable spirometer. Unlike a standard spirometer that by design is fairly bulky, our device can be unobtrusively integrated into various configurations suitable for long-term use in everyday settings (open headset, regular face mask, and professional sports mask). The sensor measures the transient change in air pressure, humidity and temperature in front of wearers’ mouth and nostrils. We present our hardware design and signal analysis methods needed to extract breathing rate information. We compare the results with a standard spirometer. Moreover, a calibration between the BME280 sensor and the spirometer is performed, having both working in parallel. We show that our approach is able to distinguish between normal breaths and deep breaths, as well as to capture the period and magnitude of the breath cycles, with a wearable device that can be used in everyday scenarios, as well as sport ...
Proceedings of the 2018 ACM International Symposium on Wearable Computers, 2018
... Digital Library logo Take a look at the new version of this page: [ beta version ]. Tell us w... more ... Digital Library logo Take a look at the new version of this page: [ beta version ]. Tell us what you think. Control Engineering: A Modern Approach, 1st edition. Purchase this Book. Source, Pages: 494. Medium: Textbook Hardcover. Year of Publication: 1995. ISBN:0030134897. ...
Research Library. Library Home | Catalog | Journals | Photon | PPA | Labwide | SPIRES | Contact U... more Research Library. Library Home | Catalog | Journals | Photon | PPA | Labwide | SPIRES | Contact Us. Library Services. Research. Borrowing. Training. Request Form. Remote Access. SU Library Cards. Community Pages. Photon Science. Particle Physics and Astrophysics. ...
Berlin, Germany: Springer-Verlag, Jan 1, 1995
Control Systems Magazine, IEEE, Jan 1, 1999
For batch-mode processing/cxperimentation, shown in Fig. 1, the remote user downloads the set or ... more For batch-mode processing/cxperimentation, shown in Fig. 1, the remote user downloads the set or historical reference inputs to the server that operates the experiment. The servcr either has a set of predetermined controller structures (with variable parameters) or can accept ...