Indian Machinery and Transport Equipment Exports - Forecasting with External Factors Using Chain of Hybrid Sarimax-Garch Model
Volume-5 | Issue-2

Enhancing Road Safety: A Driver Fatigue Detection and Behaviour Monitoring System using Advanced Computer Vision Techniques
Volume-6 | Issue-2

Green Lights Ahead: An IoT Solution for Prioritizing Emergency Vehicles
Volume-5 | Issue-3

Predictive Analytics with Data Visualization
Volume-4 | Issue-2

Smart Farming: Enhancing Network Infrastructure for Agricultural Sustainability
Volume-6 | Issue-1

Comparison of Stock Price Prediction Models using Pre-trained Neural Networks
Volume-3 | Issue-2

Efficient Two Stage Identification for Face mask detection using Multiclass Deep Learning Approach
Volume-3 | Issue-2

Design an Adaptive Hybrid Approach for Genetic Algorithm to Detect Effective Malware Detection in Android Division
Volume-3 | Issue-2

Split-Capacitor Five-Level Transformerless Grid Connected Single Phase PV System using Level Shifted PWM Technique
Volume-4 | Issue-1

Design and Implementation of MPPT based Solar Powered Wireless Battery Charger
Volume-4 | Issue-1

Gas Leakage Detection in Pipeline by SVM classifier with Automatic Eddy Current based Defect Recognition Method
Volume-3 | Issue-3

Design an Adaptive Hybrid Approach for Genetic Algorithm to Detect Effective Malware Detection in Android Division
Volume-3 | Issue-2

Comparison of Stock Price Prediction Models using Pre-trained Neural Networks
Volume-3 | Issue-2

Construction of a Framework for Selecting an Effective Learning Procedure in the School-Level Sector of Online Teaching Informatics
Volume-3 | Issue-4

Machine Learning Algorithms Performance Analysis for VLSI IC Design
Volume-3 | Issue-2

Efficient Two Stage Identification for Face mask detection using Multiclass Deep Learning Approach
Volume-3 | Issue-2

Characterizing WDT subsystem of a Wi-Fi controller in an Automobile based on MIPS32 CPU platform across PVT
Volume-2 | Issue-4

Assimilation of IoT sensors for Data Visualization in a Smart Campus Environment
Volume-3 | Issue-4

Design of Data Mining Techniques for Online Blood Bank Management by CNN Model
Volume-3 | Issue-3

Ethereum and IOTA based Battery Management System with Internet of Vehicles
Volume-3 | Issue-3

Home / Archives / Volume-7 / Issue-3 / Article-5

Volume - 7 | Issue - 3 | september 2025

AI-Driven Dynamic Scheduling and Real-Time Notification System for Staff Optimization and Conflict Resolution Open Access
Monesh S.  , Sheninth JR., Sriram S., Abirami  24
Pages: 313-326
Full Article PDF pdf-white-icon
Cite this article
S., Monesh, Sheninth JR., Sriram S., and Abirami. "AI-Driven Dynamic Scheduling and Real-Time Notification System for Staff Optimization and Conflict Resolution." Journal of Ubiquitous Computing and Communication Technologies 7, no. 3 (2025): 313-326
Published
14 October, 2025
Abstract

In institutions, developing a timetable is a challenging and problematic process, particularly when creating it manually. When managing multiple departments, some common challenges arise like overlapping schedules, unequal staff allocation for classes and insufficient classroom usage. This proposed work presents an AI-driven solution to automate and optimize timetable scheduling in colleges by using intelligent algorithms. The research involves proposed methodologies that include Constraint Satisfaction Problem (CSP) solutions and Genetic Algorithms, allowing the system to allocate courses, faculty members, classrooms and time slots without any conflicts. This model provides an equal and optimal distribution by considering several limitations like faculty availability, workload balance and institution regulations. The proposed research uses the Genetic Algorithm that represents timetables as “chromosomes” evaluated using a fitness function based on moderate or severe limitations producing solutions through crossover and mutation. The system increases the accuracy of scheduling by reducing human effort. It also handles faculty or time alterations in real-time. This smart automation method improves scalability across institutions and creates a path for a smart educational management system. The proposed system provides a significant shift from manual techniques to data-driven scheduling, increasing educational planning and utilizing resources effectively.

Keywords

Timetable Generation Genetic Algorithm CSP Automation Scheduling System Conflict Resolution Faculty Allocation

×

Currently, subscription is the only source of revenue. The subscription resource covers the operating expenses such as web presence, online version, pre-press preparations, and staff wages.

To access the full PDF, please complete the payment process.

Subscription Details

Category Fee
Article Access Charge
15 USD
Open Access Fee Nil
Annual Subscription Fee
200 USD
After payment,
please send an email to irojournals.contact@gmail.com / journals@iroglobal.com requesting article access.
Subscription form: click here