HEYMATE: ONE TAP, ANY TASK, ANY TIME

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HARINNI G; SRUTHI B; SURYA DHARSHINI V; Dr. M VICTOR JOSE

HEYMATE: ONE TAP, ANY TASK, ANY TIME

Authors: HARINNI G, SRUTHI B, SURYA DHARSHINI V, Dr. M VICTOR JOSE

Unique Paper ID: 193545
Volume: 12
Issue: 10
PageNo: 1190-1195

Keywords: Multi-Domain Orchestration Hyperlocal Allocation Dynamic Role Scheduling Bid-Based Task Assignment Emergency Response Routing

Abstract:
Contemporary on-demand digital service platforms predominantly operate within isolated operational domains, such as transportation, food delivery, household assistance, and emergency response. Although these systems leverage real-time geolocation and cloud-based coordination, their domain-specific architecture results in fragmented service ecosystems, limited cross-functional integration, and inefficient resource utilization issues. This study presents HEYMATE, a unified multidomain hyperlocal service orchestration framework designed to consolidate heterogeneous urban services within a single scalable architecture. The system identifies nearby service providers based on the user’s location and ranks them by considering their past performance and user feedback. For regular service requests, providers can submit quotations within a specified timeframe, allowing users to choose the most suitable option. The platform also allows individuals to switch between being service requesters and providers, making participation more flexible. In urgent situations, the system prioritizes requests and directly assigns the nearest available provider to reduce the response time. The overall architecture follows a client-server model in which mobile applications communicate with a centralized server. The server handles location-based filtering, stores user and service data, and tracks the status of each request from its initiation to its completion. This structured approach helps manage resources efficiently and supports coordinated service delivery across several categories.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{193545,
        author = {HARINNI G and SRUTHI B and SURYA DHARSHINI V and Dr. M VICTOR JOSE},
        title = {HEYMATE: ONE TAP, ANY TASK, ANY TIME},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {12},
        number = {10},
        pages = {1190-1195},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=193545},
        abstract = {Contemporary on-demand digital service platforms predominantly operate within isolated operational domains, such as transportation, food delivery, household assistance, and emergency response. Although these systems leverage real-time geolocation and cloud-based coordination, their domain-specific architecture results in fragmented service ecosystems, limited cross-functional integration, and inefficient resource utilization issues. This study presents HEYMATE, a unified multidomain hyperlocal service orchestration framework designed to consolidate heterogeneous urban services within a single scalable architecture. 
The system identifies nearby service providers based on the user’s location and ranks them by considering their past performance and user feedback. For regular service requests, providers can submit quotations within a specified timeframe, allowing users to choose the most suitable option. The platform also allows individuals to switch between being service requesters and providers, making participation more flexible. In urgent situations, the system prioritizes requests and directly assigns the nearest available provider to reduce the response time.
The overall architecture follows a client-server model in which mobile applications communicate with a centralized server. The server handles location-based filtering, stores user and service data, and tracks the status of each request from its initiation to its completion. This structured approach helps manage resources efficiently and supports coordinated service delivery across several categories.},
        keywords = {Multi-Domain Orchestration, Hyperlocal Allocation, Dynamic Role Scheduling, Bid-Based Task Assignment, Emergency Response Routing},
        month = {March},
        }

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Cite This Article

G, H., & B, S., & V, S. D., & JOSE, D. M. V. (2026). HEYMATE: ONE TAP, ANY TASK, ANY TIME. International Journal of Innovative Research in Technology (IJIRT), 12(10), 1190–1195.

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