Transactions on Latest Trends in Artificial Intelligence

In hospital deprescribing is the process of safely reducing or stopping medication use when it is no longer necessary or potentially harmful. In the real world, successful implementation of deprescribing in hospitals requires a coordinated effort among healthcare providers, including physicians, nurses, pharmacists, and patients. Strategies such as patient education, medication review, and interprofessional collaboration can help facilitate deprescribing and improve patient outcomes. However, barriers to deprescribing, such as time constraints, lack of resources, and patient reluctance, must also be addressed to ensure its effectiveness. A lack of clear guidelines for medication cessation has contributed to the proliferation of polypharmacy. Hospitalisation provides a unique opportunity for initiating deprescribing. Deprescribing interventions are usually pharmacist- or multidisciplinary team-led and are typically safe and beneficial for patients. However, few studies have explored interventions that are implementable by clinicians at the bedside.

Arun Velu, P. W. (2021a). Impact of Covid Vaccination on the Globe using data analytics. International Journal of Sustainable Development in Computing Science, 3(2).

Bhatia, V., & Bhatia, G. (2013a). Room temperature based fan speed control system using pulse width modulation technique. International Journal of Computer Applications, 81(5).

Bhatia, V., & Whig, P. (2013b). A secured dual tune multi frequency based smart elevator control system. International Journal of Research in Engineering and Advanced Technology, 4(1), 1163–2319.

Chopra, G., & WHIG, P. (2022a). A clustering approach based on support vectors. International Journal of Machine Learning for Sustainable Development, 4(1), 21–30.

Chopra, G., & Whig, P. (2022a). Energy Efficient Scheduling for Internet of Vehicles. International Journal of Sustainable Development in Computing Science, 4(1).

Chopra, G., & WHIG, P. (2022b). Using machine learning algorithms classified depressed patients and normal people. International Journal of Machine Learning for Sustainable Development, 4(1), 31–40.

Jupalle, H., Kouser, S., Bhatia, A. B., Alam, N., Nadikattu, R. R., & Whig, P. (2022). Automation of human behaviors and its prediction using machine learning. Microsystem Technologies, 1–9.

Khera, Y., Whig, P., & Velu, A. (2021a). efficient effective and secured electronic billing system using AI. Vivekananda Journal of Research, 10, 53–60.

Khera, Y., Whig, P., & Velu, A. (2021b). efficient effective and secured electronic billing system using AI. Vivekananda Journal of Research, 10, 53–60.

Whig, P., Kouser, S., Velu, A., & Nadikattu, R. R. (2022). Fog-IoT-Assisted-Based Smart Agriculture Application. In Demystifying Federated Learning for Blockchain and Industrial Internet of Things (pp. 74–93). IGI Global.

Whig, P., Nadikattu, R. R., & Velu, A. (2022). COVID-19 pandemic analysis using application of AI. Healthcare Monitoring and Data Analysis Using IoT: Technologies and Applications, 1.

K. Gupta, N. Jiwani and N. Afreen, "Blood Pressure Detection Using CNN-LSTM Model," 2022 IEEE 11th International Conference on Communication Systems and Network Technologies (CSNT), 2022, pp. 262-366, doi: 10.1109/CSNT54456.2022.9787648.

Whig, P., Velu, A., & Bhatia, A. B. (2022). Protect Nature and Reduce the Carbon Footprint With an Application of Blockchain for IIoT. In Demystifying Federated Learning for Blockchain and Industrial Internet of Things (pp. 123–142). IGI Global.

Whig, P., Velu, A., & Naddikatu, R. R. (2022). The Economic Impact of AI-Enabled Blockchain in 6G-Based Industry. In AI and Blockchain Technology in 6G Wireless Network (pp. 205–224). Springer, Singapore.

Whig, P., Velu, A., & Nadikattu, R. R. (2022). Blockchain Platform to Resolve Security Issues in IoT and Smart Networks. In AI-Enabled Agile Internet of Things for Sustainable FinTech Ecosystems (pp. 46–65). IGI Global.

Whig, P., Velu, A., & Ready, R. (2022). Demystifying Federated Learning in Artificial Intelligence With Human-Computer Interaction. In Demystifying Federated Learning for Blockchain and Industrial Internet of Things (pp. 94–122). IGI Global.

N. Jiwani, K. Gupta and N. Afreen, "Automated Seizure Detection using Theta Band," 2022 International Conference on Emerging Smart Computing and Informatics (ESCI), 2022, pp. 1-4, doi: 10.1109/ESCI53509.2022.9758331.

kolla, V. (2009). LANE DETECTION SYSTEM USING APPLICATION OF MACHINE LEARNING. Transactions on Latest Trends in Health Sector, 1(1). Retrieved from https://www.ijsdcs.com/index.php/TLHS/article/view/270

kolla, V. (2022). Gender Detection using OpenCV an application of Machine Learning. Transactions on Latest Trends in Health Sector, 14(14). Retrieved from https://www.ijsdcs.com/index.php/TLHS/article/view/268

meeeniga, N. (2022). Automatic Number Plate Recognition using Machine Learning. Transactions on Latest Trends in Health Sector, 14(14). Retrieved from https://www.ijsdcs.com/index.php/TLHS/article/view/269

kolla, V. (2019). Social Distancing detection using machine learning. International Journal of Sustainable Development in Computing Science, 1(1), 21-30. Retrieved from https://www.ijsdcs.com/index.php/ijsdcs/article/view/271

meeeniga, N. (2019). EMOJIFY-CREATE YOUR OWN EMOJIS WITH DEEP LEARNING. International Journal of Sustainable Development in Computing Science, 1(1), 31-39. Retrieved from https://www.ijsdcs.com/index.php/ijsdcs/article/view/272

kolla, V. (2022). NEXT WORD PREDICTION USING LSTM. International Journal of Machine Learning for Sustainable Development, 4(4), 61-63. Retrieved from https://www.ijsdcs.com/index.php/IJMLSD/article/view/275

meeeniga, N. (2019). A systematic review OF splitting a tablet obtain an accurate dose. International Journal of Machine Learning for Sustainable Development, 1(2), 51-60. Retrieved from https://www.ijsdcs.com/index.php/IJMLSD/article/view/273