Upper-Computer Software Development_Python Qt-based Host Computer Programming_Industrial Equipment Automation Upper Computer System Customization-unicrom

Upper-computer solutions

Equipment Data Acquisition and Analysis

Gathering real-time data via an array of sensors, devices, or systems, and then conveying this information to the supervisory control computer for processing, analysis, and presentation, thus offering a foundation for informed decision-making.

Equipment Control and Automation

Automate control, monitoring, and management of various devices and processes via a supervisory computer to boost productivity, cut labor costs, decrease error rates, and safeguard equipment operation.

Embedded System Integration

Integrate embedded systems for smart, networked management, boosting efficiency, cutting costs, and strengthening product competitiveness.

System Simulation and Algorithms

Utilizing computer simulations to comprehend and improve system functionality and design. Algorithms are systematic methods for solving problems and executing computational tasks.

HMI、Scada、IOT

Mainly employed to achieve the intelligentization, networking, and automation of equipment management, which improves manufacturing efficiency, decreases operational expenses, and enhances the competitiveness of products.

Success Cases

Specializing in supervisory software development for smart manufacturing, industrial control, medical, hardware, and instrumentation sectors.

Laboratory Automation Control System

Function Modules:
Recipe Management
Process Control
Asset Management
Data Analytics

Solutions:The project features robotic systems, dispensing and cleaning equipment, and reaction stations, all controlled by a central computer for command execution and status monitoring. The goal is to automate and smartly upgrade the lab operations.

Example diagram

Intelligent Industrial Equipment Monitoring System

Function Modules:
Data Dashboard、Equipment Management、Order Management、Material Management
Solution:This software facilitates the issuance of production tasks and management of equipment information, with real-time control over production progress. Managers can monitor production and equipment status in real time via a web-based data dashboard. Equipment, materials, and order planning are operated and managed through an online backend system.

Example diagram

SCADA Tank Experiment Control Station

Function Module:
Equipment Control

Solution:The system enables intelligent tank numbering and dynamic assembly, supporting the creation of at least 10 independent experimental batches. For instance, Experiment 1 comprises tanks numbered 2, 4, 5, 7, and 8, while Experiment 2 includes tanks 1, 3, 6, 9, and 10. It allows for the flexible addition of tanks to any batch, optimizing resource allocation and enhancing experimental efficiency.

Example diagram

ECG Medical Upper Computer Management System

Functional Modules:
Case Management, Data Reading, Data Parsing, Chart Generation

Solution: The software primarily focuses on displaying patients’ ECG data and providing functionalities for ECG calibration and diagnosis. By reading and parsing the data collected from ECG devices, the software is capable of generating various ECG charts and automatically producing report conclusions. Printing of ECG charts is facilitated through a printer.

Example diagram

Microscope Analysis Control System

Functional Modules:
Image auto-recognition、Auto-focusing、Data visualization、Automated imaging with adjustable step size、Cell counting and marking

Solution:
Developed in Python for Windows, this system controls XY and Z-axis movement, offers automated and manual focusing, and captures cell images. It saves data for export, facilitating cell research and detection.

Example diagram

MES Factory Production Line Management System

Functional Modules:
Production planning、Warehouse management、Mold and color matching、Production and quality control、Dashboard reporting

Solution:
The software improves efficiency and quality control across factory areas, allowing real-time planning and monitoring of production, inventory, and equipment usage.

Example diagram

Plus Dry Fluorescence-Free Analyzer Upper Computer

Functional Modules:
Data collection、Data analysis、Printing via Windows client

Solution:
The client, targeting technological innovation, operates globally in medical device marketing and services. The updated software for their “Immuno Fluorescence Analyzer Plus” now supports terminal pet hospitals and new instrument integration, with enhanced connectivity beyond local networks.

Example diagram

Industries

Vertical industry solutions to meet business needs

Advanced Equipment Manufacturing

Upper- computers, as the essence of intelligent manufacturing in the high-end equipment industry, integrate automation, data analytics, and production management to boost efficiency, quality, and innovation.

Biopharmaceutical Manufacturing Processes

Upper- computer software can communicate with various sensors, actuators, and controllers, and other lower-level equipment to achieve real-time monitoring and control of key parameters in the biopharmaceutical process.

Inspection and Testing

Upper -computer software streamlines inspection by automating data handling, ensuring accuracy and efficiency in quality control compliance.

Inspection and Testing

Upper -computers in robotics provide a central system for precise control and intelligent management, offering user interfaces, data handling, remote operation, and programming.

New Energy

Upper- computer software optimizes new energy systems’ performance and efficiency with centralized monitoring, real-time data handling, and remote management, fostering sustainable energy utilization.

New Materials

Upper- computer software integrates machine learning, data analytics, and real-time monitoring to expedite new material discovery and improve production efficiency and quality.

Basic Functions of the Supervisory Software

Data visualization

Display the various signal changes (hydraulic pressure, water level, temperature, etc.) from the lower-level equipment operation on the screen in the form of graphics or numbers

Data analysis

Analyze historical data for trends, cycles, anomalies, and diagnostics using the graphical interface and analysis tools to uncover issues and optimize system performance.

Data acquisition and control

Create data collection tasks and manage collected data uniformly.
Perform calculations based on process requirements, logical demands, or algorithms.
Implement automatic output control

Data storage

Store user data, collected data items, process parameters, alarm information, operation logs, and program logs into the database according to rules

Unicrom’s advantages

Reliable Partner

With 36 years of experience and a team of over 100 industry veterans, we offer long-term, stable R&D services.

Professional Development Team

Our R&D team, with 12 years of industry experience, provides comprehensive services from consulting and requirements gathering to UI design, prototyping, testing, and deployment.

Senior Management Accountability

Leaderships oversee projects directly to ensure successful on-time delivery.

End-to-end Risk Management

Our project management team, certified in PMP and ACP, handles all risk aspects from feasibility analysis to deployment, ensuring project success.

ISO9001 Certification

Certified for design and development of computer application software, embedded industrial control boards, and electronic harness production.

FAQ

Q:How to choose a reliable upper-computer development service provider?

A:The development of upper-computer software relies on the qualifications, experience, and after-sales service of the R&D team. Therefore, choosing a company with strong corporate strength, a stable team, and the ability to provide long-term services is an important factor.

Q:How much does it cost to development a custom upper-computer software system?

A:The cost of developing a custom upper-computer software is generally determined by various factors, including functional requirements, performance needs, development cycle, payment terms, the number of points, and data volume. Unicrom will provide a reasonable quotation based on these factors.

Q:How long is the development cycle for upper-computer software?

A:The development cycle varies depending on project requirements, ranging from a short term of half a month to two months, up to a longer term of three to six months.