Mobile Applications

In this project, our focus was on developing a mobile application for fish health management. The application aimed to streamline various aspects of fish health monitoring and management. Here are the key aspects of the project:

Managed Events and Withholding Periods:

• The mobile application provided a comprehensive platform to manage events related to fish health, including medication administration and treatments.
• Withholding periods, which specify the time during which fish cannot be harvested after medication, were also incorporated into the system to ensure compliance with regulations and maintain fish health.

Upcoming Monitoring Events:

• The application allowed users to schedule and track upcoming monitoring events, such as water quality assessments and disease screenings.
• Notifications and reminders were implemented to ensure timely execution of monitoring events and prevent oversight.

Inventory Monitoring and Alerts:

• The mobile application facilitated inventory monitoring of fish health-related products, such as medications and treatments.
• Alerts and notifications were generated to inform users about low stock levels or expiration dates, enabling efficient inventory management and timely reordering.

Management of Product SDS, Chemical Permits, and Staff Training Records:

• The application served as a centralized repository for product Safety Data Sheets (SDS) and chemical permits, ensuring easy access to important information regarding the usage and handling of fish health products.
• Staff training records, including certifications and completion of relevant courses, were also managed within the application to ensure compliance and accountability.

Benefits:

• Streamlined Fish Health Management: The mobile application simplified and centralized various aspects of fish health management, providing a user-friendly interface for efficient monitoring and record-keeping.
• Compliance and Regulation Adherence: By incorporating withholding periods, managing product SDS and chemical permits, and tracking staff training records, the application facilitated compliance with regulations and best practices.
• Timely Notifications and Alerts: The application’s notification system ensured that users were promptly informed about upcoming monitoring events, low inventory levels, and other important updates.

Through the development of this fish health management mobile application, we aimed to enhance the efficiency and effectiveness of fish health monitoring and management processes. The application’s features included event management, withholding period tracking, monitoring event scheduling, inventory monitoring, SDS and permit management, and staff training record keeping.

In this project, our objective was to develop a comprehensive paddlewheel management and tracking tool. The tool aimed to streamline inventory management, operational efficiency, longevity tracking, service history, and facilitate seamless communication between field and service departments. Here are the key aspects of the project:

Inventory Management:

• The paddlewheel management tool allowed for efficient tracking and monitoring of paddlewheel inventory, including paddlewheel units, spare parts, and associated equipment.
• It provided features for easy cataloging, stock level monitoring, and automated reordering to ensure optimal inventory control.

Operational Management:

• The tool offered functionalities to manage and optimize paddlewheel operations, including monitoring performance metrics, operational parameters, and efficiency.
• Real-time data and analytics were integrated to provide insights into paddlewheel functionality and performance, facilitating proactive maintenance and operational improvements.

Longevity Tracking:

• The tool incorporated longevity tracking capabilities to monitor the lifespan and usage of paddlewheel units.
• It provided data-driven insights into the durability and performance of paddlewheels, enabling timely replacements or maintenance interventions.

Service History:

• The tool maintained a comprehensive service history log, recording maintenance activities, repairs, and component replacements.
• This allowed for easy access to historical data, enabling efficient troubleshooting and informed decision-making for future service needs.

Push Notifications Between Field and Service Departments:

• The tool facilitated seamless communication between field teams and service departments through push notifications and alerts.
• Field technicians could report issues, request maintenance, or seek guidance, while service departments received real-time notifications, enabling swift response and action.

Benefits:

• Streamlined Inventory and Operational Management: The paddlewheel tool enhanced inventory control, optimized operations, and improved overall efficiency in paddlewheel management.
• Proactive Maintenance and Longevity Tracking: By tracking longevity and service history, the tool enabled proactive maintenance, leading to increased lifespan and performance of paddlewheel units.
• Improved Communication and Service Efficiency: The push notification system ensured effective communication between field teams and service departments, reducing response time and enhancing service quality.

Through the development of this paddlewheel management and tracking tool, we aimed to enhance efficiency, prolong the lifespan of paddlewheel units, improve inventory management, and streamline communication between field and service departments. The tool’s features included inventory management, operational monitoring, longevity tracking, service history, and push notifications for seamless collaboration.

This project involved developing a Network Management System (NMS) with a focus on service history. The NMS provided comprehensive monitoring and management capabilities for network infrastructure. Here are the key aspects of the project:

Service History:

• The NMS incorporated a robust service history feature, capturing and storing detailed records of maintenance activities, repairs, and upgrades performed on network components.
• Service history logs facilitated easy access to past events, enabling efficient troubleshooting and informed decision-making for future service needs.

Update Alerts:

• The NMS included an update alert system that notified administrators about available firmware updates, software patches, or configuration changes for network devices.
• These alerts ensured that the network infrastructure remained up-to-date with the latest enhancements and security patches.

Subscription Alerts:

• The NMS featured subscription alerts that notified administrators about upcoming subscription renewals, contract expirations, or license updates for network devices and software.
• These alerts helped ensure uninterrupted service and proactive management of subscription-related tasks.

Job History:

• The NMS maintained a comprehensive job history log, documenting all tasks and activities performed by network technicians or administrators.
• This log provided a detailed record of network changes, configurations, and troubleshooting steps, facilitating accurate documentation and auditing.

Full Port Mapping:

• The NMS provided full port mapping capabilities, allowing administrators to map and track the connectivity of network devices across various ports and interfaces.
• This feature helped in network troubleshooting, capacity planning, and accurate inventory management.

Inventory Management:

• The NMS included inventory management functionalities to track and manage network devices, equipment, and software licenses.
• It provided real-time visibility into inventory levels, asset tracking, and procurement requirements, ensuring efficient inventory management.

Through the implementation of the Network Management System with service history, the project achieved efficient management and monitoring of network infrastructure. The features included service history logs, update and subscription alerts, job history tracking, full port mapping, and inventory management. These capabilities resulted in improved troubleshooting, proactive maintenance, accurate documentation, and enhanced network performance.

This project focused on developing a robust Feed Inventory Management System that incorporated barcode scanning capabilities. The system aimed to streamline feed inventory tracking, generate reports, provide usage alerts, and monitor expiry dates. Here are the key aspects of the project:

Feed Inventory Tracking:

• The system facilitated efficient tracking of feed inventory, capturing data such as quantity, batch numbers, and supplier information.
• Each feed item was assigned a unique barcode, enabling accurate and rapid inventory management.

Barcode Scanner:

• The system integrated a barcode scanner feature, allowing users to quickly scan feed barcodes for seamless inventory updates.
• The barcode scanner ensured accuracy and reduced manual data entry errors, saving time and improving efficiency.

Inventory Reports:

• The system generated comprehensive reports on feed inventory, providing insights into stock levels, usage trends, and supplier performance.
• These reports aided in informed decision-making, inventory planning, and identifying potential issues such as excessive wastage or shortages.

Usage Alerts:

• The system incorporated usage alerts to notify users when feed quantities reached predefined thresholds or when critical items required immediate attention.
• These alerts helped prevent stockouts and ensure timely replenishment, optimizing feed availability for livestock or production processes.

Expiry Monitoring:

• The system actively monitored feed expiry dates, sending alerts to users in advance of impending expirations.
• This feature facilitated proactive management of feed inventory, reducing waste and ensuring the use of fresh and viable feed.

Inventory Management:

• The system provided comprehensive inventory management functionalities, enabling users to view, update, and track feed inventory in real-time.
• Users could easily manage incoming and outgoing feed stock, monitor stock movements, and conduct regular audits.

Through the implementation of the Feed Inventory Management System with a barcode scanner, our project achieved efficient feed inventory tracking, minimized errors, and facilitated data-driven decision-making. The system’s key features included barcode scanning, inventory reports, usage alerts, expiry monitoring, and comprehensive inventory management capabilities.

This project focused on developing a Water Quality Monitoring System that encompassed a water quality database, automated alerts, automated reports, and inventory management functionalities. Here are the key aspects of the project:

Water Quality Database:

• The system included a comprehensive water quality database to store and manage data collected from various monitoring points.
• The database facilitated easy access to historical data, enabling analysis, trend identification, and informed decision-making.

Automated Alerts:

• The system featured automated alerts that triggered notifications when specific water quality parameters exceeded predetermined thresholds or when abnormal conditions were detected.
• These alerts ensured timely responses to any deviations from desired water quality levels, allowing for proactive intervention and mitigation.

Automated Reports:

• The system generated automated reports summarizing water quality data, providing detailed insights into trends, fluctuations, and compliance with regulatory standards.
• These reports could be customized and scheduled to meet specific reporting requirements, streamlining data analysis and reporting processes.

By implementing the Water Quality Monitoring System, this project achieved efficient monitoring and management of water quality parameters. The system’s features encompassed a water quality database for data storage, automated alerts for timely notifications, automated reports for comprehensive analysis. These components contributed to enhanced water quality monitoring, proactive intervention, and efficient resource management.

This project aimed to develop a comprehensive Fish Feeding and Pond Monitoring System. The system incorporated a barcode scanner for scanning feed bags into delivery vehicles, recorded pond water parameters, feeding behavior, technician feed time and location, and provided alerts for withholding feed pre-harvest. The system streamlined data entry processes, saving significant time. Here are the key aspects of the project:

Barcode Scanner for Feed Bag Scanning:

• The system included a barcode scanner to scan feed bags upon delivery to the vehicles, ensuring accurate and efficient inventory management.
• Scanning feed bags facilitated automatic tracking of feed quantities and enabled seamless integration with the system.

Pond Water Parameter and Feeding Behavior Recording:

• The system allowed for the recording of pond water parameters, such as temperature, pH, and oxygen levels, to monitor and maintain optimal conditions for fish health.
• Feeding behavior, including the amount and frequency of feed dispensed, was also recorded to analyze feeding patterns and optimize feeding practices.

Technician Feed Time and Location Tracking:

• The system tracked and recorded the time and location of each feeding event performed by technicians.
• This data provided insights into feeding routines, efficiency, and allowed for improved supervision and coordination.

Alerts for Withholding Feed Pre-Harvest:

• The system incorporated algorithms to analyze factors such as growth rates, feed conversion ratios, and harvest schedules.
• Based on these factors, the system generated alerts to notify users if feed should be withheld prior to harvest, ensuring fish quality and minimizing waste.

Automated Data Upload and Time Savings:

• The system automated data upload to a central repository, eliminating the need for manual data entry.
• By automating data collection and storage, the system saved approximately 6 hours of data entry work per week, freeing up valuable time for other tasks.

Through the Fish Feeding and Pond Monitoring System, the project aimed to enhance efficiency, optimize feeding practices, and improve fish health. The system’s features included barcode scanning for feed bag tracking, recording of pond water parameters and feeding behavior, technician feed time and location tracking, alerts for feed withholding pre-harvest, and automated data upload to save time. These components facilitated streamlined processes, data-driven decision-making, and improved overall fish farming operations.