@facultyprofile.vit.edu/profile
Assistant Professor, Department of Chemical Engineering
Vishwakarma Institute of Technology Pune
PhD in Chemical Engineering
Polymer degradation, it's biodegradation and ecotoxicity studies
Scopus Publications
Gayatri Jagnade, Sunil Sable, and Mitesh Ikar
Springer Nature Singapore
Sunil Sable and Mitesh Ikar
Springer Nature Switzerland
Sunil Sable, Mitesh Ikar, and Priyanka Dudheinamdar
Springer Nature Switzerland
Sunil Sable and Sanjeev Ahuja
Springer Science and Business Media LLC
Sunil Sable, Bhushan Shivane, Vaishnavi Shivakumar, Ashlesha Todkar, Shivraj Kadam, Prakriti Singh, and Shreya Tonape
IEEE
This paper presents a pothole detection system that uses an accelerometer and GPS. The system detects potholes by measuring the magnitude of acceleration and triggering an alert when the acceleration exceeds a predefined threshold. The GPS module is utilized to determine and provide the accurate location of the pothole., which is then sent to a remote server. To provide the date, time, longitude, and latitude data from a Google Sheet to an AppSheet app this system provides a pothole detection AppSheet app. These Appsheets can be accessed by authorized users to view the location of the potholes detected by the system. The system was tested on a moving vehicle and demonstrated promising results in detecting potholes accurately.
Gayatri Jagnade, Sunil Sable, and Mitesh Ikar
IEEE
In today’s business-oriented society, email is used to send all official communications. Many institutions, colleges, and IT industries, in addition to the commercial sector, provide official information via email. Manually sending emails to everyone is an extremely time-consuming task. Therefore, a website that uses speech-to-text recognition to send emails and system talks to user about tasks done. The Email Autometa Solutions website is a Streamlit-based web app that allows users to automate email sending using voice commands. The website integrates voice recognition, email composition, and email sending functionalities to provide a streamlined and user-friendly experience. Users can input the email subject and message by speaking, and even attach files if needed. The website leverages libraries such as pyttsx3 for text-to-speech conversion and speech_recognition for speech-to-text conversion. Once the email is composed, it is sent via SMTP using the Gmail server. The website provides audio feedback to notify users about the success or failure of the email sending process. With its intuitive interface and voice-based input, the Email Autometa Solutions website simplifies and accelerates the email sending workflow.
Gayatri Jagnade, Sunil Sable, and Mitesh Ikar
IEEE
In the realm of human-computer interaction (HCI), the integration of multiple modalities has emerged as a promising approach to enhance user experiences and enable more natural and intuitive interaction paradigms. This paper explores the advancements in multimodal fusion techniques and their application in HCI, focusing on the integration of eye tracking, lips detection, speech recognition, and voice synthesis. The proposed framework aims to leverage the combined power of these modalities to achieve intelligent cursor control and provide enhanced auditory feedback to users. By seamlessly integrating eye tracking, lips detection, and speech recognition, the system can accurately interpret user intentions and gestures. The eye tracking component enables precise tracking of gaze movements, while the lips detection module analyses lip movements for additional input signals. Concurrently, the speech recognition module captures user commands and converts them into actionable instructions. The synthesized voice feedback component plays a crucial role in providing auditory responses to user actions, ensuring a seamless and engaging interaction experience. Through the integration of voice synthesis, the system can effectively communicate feedback, confirm user inputs, and guide users through the interface. The combined functionality of intelligent cursor control and auditory feedback opens up new possibilities for more efficient and immersive HCI. Experimental evaluations demonstrate the effectiveness of the proposed multimodal fusion framework. User studies reveal improved cursor manipulation accuracy and reduced cognitive load compared to traditional input methods. The system's ability to adapt to individual user preferences and environmental conditions further enhances the overall user experience. This paper contributes to the advancement of multimodal fusion techniques in HCI by showcasing the integration of eye tracking, lips detection, speech recognition, and voice synthesis. It highlights the potential of this comprehensive approach to enable intelligent cursor control and provide sophisticated auditory feedback, thereby paving the way for more intuitive and immersive human-computer interaction paradigms.
Shrikant Barkade, Sunil Sable, Varsha Ashtekar, and Vikram Pandit
Elsevier BV
Sachin R. Shirsath, Sunil S. Sable, Shashank G. Gaikwad, and Parag R. Gogate
Elsevier BV
Sunil Sable, Sanjeev Ahuja, and Haripada Bhunia
Springer Science and Business Media LLC
Sunil Sable, Sanjeev Ahuja, and Haripada Bhunia
Springer Science and Business Media LLC
Sunil Sable, Sanjeev Ahuja, and Haripada Bhunia
Walter de Gruyter GmbH
Abstract In this work, polypropylene (PP) filled with different proportions of CoSt were prepared in a twin-screw extruder by compounding technique. Eight films of these compounds were prepared using compression moulding. The modified PP films were characterized for chemical, physical, thermal, and morphological properties (before and after biodegradation). The biodegradation of the CoSt filled PP films was studied under controlled composting conditions, and the degradation intermediates were evaluated for their ecotoxicological impact. The CoSt present in the PP film was confirmed by Fourier transform infrared spectroscopy. As the addition of CoSt was progressively increased, the tensile strength and thermal stability decreased as shown by UTM and thermogravimetric analysis. The compounding of CoSt in PP reduced its crystallinity as revealed by the differential scanning calorimetry and X-ray diffraction analysis, and this led to enhanced degradation of PP. After biodegradation, SEM results of modified PP films showed rougher morphology than before biodegradation. The maximum biodegradation (19.78%) was shown by the film having 2 phr CoSt. The ecotoxicity tests of the degraded material, namely, microbial test, plant growth test, and earthworm acute-toxicity test demonstrated that the biodegradation intermediates were nontoxic. Hence, CoSt filled PP has high industrial potential to make biodegradable flexible packaging.
Sunil Sable, Sanjeev Ahuja, and Haripada Bhunia
Springer Science and Business Media LLC
Sunil Sable, Sanjeev Ahuja, and Haripada Bhunia
Springer Science and Business Media LLC
Sunil Sable, Dev K. Mandal, Sanjeev Ahuja, and Haripada Bhunia
Elsevier BV
S.R. Shirsath, S.S. Sable, S.G. Gaikwad, S.H. Sonawane, D.R. Saini, and P.R. Gogate
Elsevier BV