Laboratory Information Management System

Solution Group

Industry

Smart Manufacturing
Manufacturing

PoC Duration

Iotellect Match

5-10 days
AI powered Low Code IoT/IIoT Platform

Revamp laboratory operations with a LIMS solution based on a low code manufacturing operations management platform. Automate sample management, data collection, and reporting processes. Gain real-time visibility into your lab's performance and make data-driven decisions to improve efficiency and productivity. Seamlessly integrate with your existing instruments and systems for a unified view of your lab's operations. Empower your team with intuitive tools and dashboards to simplify complex workflows and enhance collaboration. Ensure regulatory compliance and data integrity with robust security and audit trail features. Transform your lab into a smart, connected environment that drives innovation.

Iotellect is a low code IoT/IIoT platform and ecosystem that includes out-of-the-box industrial automation and digitization products, such as SCADA, BMS and BI. It allows business-oriented IoT professionals to join the solution development process by converting their Industry 4.0 knowledge directly into product features and specific value delivered to your end customers.

Build Your LIMS Solution

Connect Your

Laboratory Infrastruture

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RFID/NFC readers and tags
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Centrifuges
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PLCs and IIoT gateways
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Analytical instruments
(e.g., spectrophotometers, chromatographs, mass spectrometers)
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Sensors
for temperature, pH, conductivity, dissolved oxygen, and other environmental parameters
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Barcode scanners and printers
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Automated liquid handlers
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Sample storage and handling systems
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Incubators and freezers
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Scales and balances
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Microscopes and imaging systems
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Weighing and measurement devices
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Network devices and servers
  • Analytical instruments are connected using drivers for industrial protocols like Modbus, OPC UA, and more, ensuring smooth data exchange
  • Barcode scanners are interfaced through software agents, enabling efficient data capture and processing
  • Automated liquid handlers can be monitored in real-time, with command execution controlled remotely to improve workflow automation
  • Sample storage systems are integrated with automated alerting for temperature deviations or access attempts, enhancing security and compliance
  • Centrifuges are managed through connectivity with programmable hardware integrations that allow for remote control and maintenance checks
  • Incubators benefit from low-code configuration capabilities that automate routine operations based on predefined parameters or schedules
  • Scales and balances utilize the platform's device-side data normalization to ensure accurate weight readings are processed and stored efficiently

Connectivity and Management

  • Low-code integration supports seamless data exchange between Laboratory Information Management Systems (LIMS) and Electronic Lab Notebooks (ELN)
  • Utilization of MQTT facilitates integration with cloud-based platforms for extended lab research collaborations and remote analysis interventions
  • Sample management workflows integrate with existing systems using JDBC/ODBC connectors to synchronize data across research entities accurately
  • Digital interfaces allow automated reporting to comply with regulatory standards by integrating laboratory audit trails into corporate compliance databases
  • Integration with external laboratory equipment calibration services ensures timely updates and maintenance scheduling through system-wide alerts
  • Connectivity with hospital information systems enables cross-referencing of medical research data for validation and collaborative studies
  • Interfaces link chemical inventory systems to LIMS, optimizing reorder processes based on real-time consumption analytics
  • Data exchange models incorporate third-party imaging software integrations for enhanced visualization of spectroscopic results

Integration

  • Real-time monitoring of lab conditions using machine learning algorithms to predict equipment failures or anomalies in sample storage environments
  • Advanced statistical process control utilizes a Round-Robin Database (RRD) for tracking historical data trends across various lab devices
  • Fault-tolerant historian captures continuous data streams from incubators and centrifuges with high precision for long-term analysis
  • A low-code expression language allows flexible configuration of complex analytical workflows tailored to specific research needs
  • Automated alerting and corrective actions are enabled through event-based logic applied to unexpected deviations in environmental sensor readings
  • Predictive modeling of reagent consumption rates by analyzing usage patterns from robotic liquid handlers reduces waste and optimizes inventory management
  • Digital twin technology simulates workflow scenarios with analytical instruments to test process optimizations without disrupting actual experiments
  • Visualization of mass spectrometer data enables in-depth comparison of compound analyses through interactive charting and reporting

Analytics

  • Customizable dashboards provide high-level overviews of laboratory performance metrics using configurable charts, diagrams, and tables suitable for user roles
  • The visual GUI builder allows intuitive drag-and-drop design of interfaces that accommodate diverse operational methodologies across lab sections
  • Real-time maps display lab equipment status within facility blueprints to assist in spatial organization and infrastructure planning efforts
  • Responsive web interfaces facilitate user access across various devices, supporting lab staff mobility without compromising data integrity or security
  • Dynamic event logs enable forensic analysis of critical incidents by detailing sequential laboratory operations within customizable timelines
  • Layered context maps highlight connections among samples, instruments, and experiments, offering holistic views of laboratory project progressions
  • Interactive feedback features allow lab staff to propose UI improvements directly within the system interface to enhance user satisfaction

UI/UX

Key Features
of Your LIMS Solution

Customers and Partners

  • System Integrators
  • Engineering Companies
  • Pharmaceutical Companies
  • Manufacturing Firms
  • Medical Research Laboratories
  • Diagnostic Testing Facilities
  • University Research Laboratories

Solution Users and Developers

  • Dedicated low code developers
  • Industrial technologists
  • Laboratory information system specialists
  • Scientific and medical equipment technicians
  • MOMS/MES solution architects
Customer success team
Community
Online training

Assistance