Products

SPS offers tailor-made products to elevate the construction industry,
to automate the planning process,
and save construction or maintenance costs.
PCL HeviLift platform

A Crane Management Suite: Enhancing modular construction projects by enhancing scheduling, visualization, and lift planning for improved safety and successful outcomes

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PCL module yard scheduling platform

A Customized Module Yard Scheduling Platform: Optimizing project planning and streamlining resource allocation

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Automated pipeline project planning platform (Piplan)

An Automated Pipeline Project Planning Platform: Improving project management using AI, simulation, BIM, and optimization

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Automated compliance code checking platform

An Automated and Integrated Regulation Compliance Checking Platform: Streamlining compliance verification, promptly flagging deviations from regulations

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BIM-based facility management platform

A Comprehensive Facility Management Platform: Covering asset management, preventive maintenance, repairs, and renovations, ensuring a functional and secure environment

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BIM-based automation plugins

BIM-based Automation Plugins: Automating BIM workflow, eliminating human error, delivering lightning-fast results, and ensuring consistency across projects to achieve precision and efficiency.

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Cloud-based BIM applications

Cloud-Based BIM Applications: Transforming Architecture, Engineering, and Construction (AEC) challenges by enhancing collaboration and using real-time visualization and configurable workflows

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Smart-mining operation platform

Smart-Mining Operation Platform: Leveraging AI, AR, VR, simulation, and optimization to enhance mining processes and ensure safety and productivity

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PCL cable routing optimization platform

An automated cable routing optimization Platform: Tackling the complexities of electrical cable routing in industrial projects through data-driven modeling to minimize errors and optimize project execution.

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PCL HeviLift platform

In the realm of industrial projects, optimizing crane management is crucial for efficiency. In conjunction with PCL Industrial Management Inc. during the last decade, a comprehensive Crane Management Suite is a suite to enhance planning large-scale modular construction projects involving heavy lifts.

This suite comprises tools like automated planning, simulation, and optimization, offering a unified solution for scheduling, visualization, and lift planning in modular construction. Implementation of this integrated system results in substantial time and cost savings, improved safety, and enhanced project outcomes. By seamlessly incorporating these tools into a cohesive suite, our collaboration pioneers a transformative approach to crane management, ensuring success in complex industrial projects.


The system features include:

  • Automated Crane Planning and Optimization (ACPO): ACPO finds all feasible cranes’ locations and configurations to lift objects by considering all obstructions and boundaries on the site.
  • Auction-based Simulation for Industrial Crane Operations (ASICO): ASCIO employs discrete event simulation and optimization algorithms (genetic, Dijkstra, and A-star algorithms) to recognize the best lift schedule and crane locations by minimizing the overall project cost and satisfying the safety concerns (e.g., avoiding clashes and blind lifts).
  • Database: This platform developed a comprehensive database structure for the project to manage various data sets such as the project’s information, available cranes’ information, and the lifting objects’ information. The results of the lift study for each lifting object can be stored and accessed in this database, as well.
  • Path Planning: This engine finds the optimum path for lifting an object from the pick position to the set position without clashing other lifted objects and boundaries on the site.
  • CAD-based Lift Study Generation Plugins: This plugin automatically generates the lift study based on ACPO, ASICO, and available information in the database. It can also auto-generate the 3D model of lifting objects and mobile cranes for the entire project.
  • BIM-based 4D Plugin: This plugin, developed for Autodesk Navisworks Simulate/Manage, auto-generates the 4D schedule, which can include the presentation of the lifting path for the entire project.
  • Virtual Reality (VR) Engine: This engine, developed for the Unity game engine, generates a lift animation for the entire project in an interactive mode, which can involve the user in decision-making.
  • Reinforcement Learning (RL) Module: This module employs RL-based Artificial Intelligence (AI) to generate the optimum lift schedule and lifting path.
  • Cloud Computing Engine: This engine employs Microsoft Azure cloud computing for several thousand to find the optimum path for several hundred thousand positions and configurations of the cranes in a reasonable time.

PCL module yard scheduling and workface planning platforms

Modular construction remains a prevalent method for industrial plant development, characterized by its compartmentalized approach to project execution. Each module signifies a distinct construction endeavor, rendering modular construction synonymous with multi-project endeavors.

The efficient scheduling and optimal resource allocation, encompassing space, skilled labor, and construction equipment, pose formidable challenges within these expansive construction projects.
In pursuit of enhanced planning capabilities, we have advanced our approach by introducing a refined iteration of our customizable platform (i.e., Module Yard Scheduling Platform) integrated with an extensive database. This comprehensive repository encompasses both historical project data and expert insights, facilitating informed decision-making processes. Notably, as a matured version of the Module Yard Scheduling Platform, the Workface Planning Platform is represented for high-level planning of large-scale projects based on limited resources and realistic relationships between different activities and construction work areas. Moreover, this platform accounts for uncertainties in bidding and execution using techniques and methods such as optimization and simulation. The platform has been seamlessly integrated into numerous industrial projects undertaken by PCL Industrial Management Inc. The outcomes have been marked by substantial cost efficiencies, yielding savings in the millions of dollars, alongside noteworthy reductions in project durations. To learn more, you can read these articles about the developed framework:
https://ieeexplore-ieee-org.login.ezproxy.library.ualberta.ca/document/5601887

Automated pipeline project planning platform (Piplan)

Pipeline transmission projects are often repetitive in nature. This makes the project’s division, resource allocation, and machinery assignment directly impactful in the implementation process. The SPS team centralizes using discrete event simulation (DES) and linear scheduling method (LSM) tools to achieve collaborative goals. 

Additionally, the Project Management Information System (PMIS) is utilized to store project information and estimates based on historical data.


The system features include:

  • Creating 3D profiles automatically from survey data
  • Automatic estimation of project work volumes
  • Estimation of project cost and duration
  • Project segmentation into manageable sections
  • Examination of the weather’s impact on the project’s progress
  • Analysis of the effect of resource quantity on the project’s progress
  • Investigation of the impact of delays on the project’s progress

Automated compliance code checking platform

Manual verification of regulatory compliance poses challenges and consumes valuable time. Automating this process can significantly enhance project performance.

With our Automated Regulation Compliance Checking platform, integrated with the BIM model, our team effortlessly identifies and reports any deviations from regulations. Within seconds, our system guarantees accuracy by promptly flagging warnings or errors and streamlining the compliance verification process.

BIM-based facility management platform

SPS specializes in comprehensive facility management, addressing diverse needs across sectors.

Our services cover asset and space management, preventive maintenance, repairs, energy consumption, and renovations. We streamline operations, allowing you to focus on core business goals while ensuring a functional and secure environment.

BIM-based automation plugins

In the intricate world of Building Information Modeling (BIM), architects, engineers, and construction professionals grapple with repetitive, time-consuming tasks. These manual processes, executed by operators, often lead to errors, delays, and frustration.

Accordingly, SPS Inc. developed a series of products to transform your BIM experience. Our BIM-based automation plugins are a suite of intelligent BIM software extensions meticulously designed to address the pain points faced by industry experts. Our mission? To empower you with seamless automation, precision, and efficiency. In a nutshell, you can Revolutionize Your BIM Workflow with our BIM-based automation plugins.


The key features are:

  • Error-Free Implementation
    • Automated Workflows: Our plugins eliminate the risk of human error. Whether it’s clash detection, quantity takeoffs, or model updates, our extensions handle it all.
    • Consistency Across Projects: Maintain uniformity and accuracy across your BIM projects.
  • Lightning-Fast Results
    • Real-Time Processing: Need instant insights? These plugins deliver. No more waiting for calculations or data transformations.
    • Project Time Savings: By slashing manual effort, you’ll achieve results faster than ever before.
  • Seamless Integration
    • Plug and Play: Install effortlessly. It seamlessly integrates with popular BIM platforms.
    • API-First Approach: Developers, rejoice! Our APIs allow for customization and third-party integrations.


Also, two instances of developed plugins are:

  • BIM Data Transfer Plugin: This plugin facilitates seamless data transfer between local computers and servers, ensuring that BIM-related information flows accurately and efficiently. It also eliminates manual steps and minimizes the risk of errors.
  • Rule Checker Plugin: This plugin focuses on rule checking. It retrieves customer-defined rules and rigorously verifies them against pre-provided BIM models. By automating this process, it enhances precision and compliance.

Cloud-based BIM applications

The Architecture, Engineering, and Construction (AEC) industry has long grappled with manual data exchange, file conversions, and data-merge hurdles. These limitations have hindered productivity, caused errors, and delayed project timelines.

Our cloud-based BIM applications, such as model web viewer or product configurator, are here to transform these challenges into opportunities. In fact, In the intricate realm of (AEC), our cloud-based BIM applications emerge as powerful allies. These digital tools transcend traditional boundaries, seamlessly bridging gaps and enhancing collaboration across project teams. Let’s explore the essence of our offerings:

  • Cost-Effective Agility: Cloud-based BIM technology slashes data exchange and storage costs. Say goodbye to cumbersome file transfers and hello to dynamic cloud environments.
  • On-Demand Resources: Need additional computing power or storage? The cloud delivers—whether it’s rendering massive models or analyzing complex simulations.
  • Real-Time Visualization and Collaboration
    • 3D Model Web Viewer: Visualize intricate BIM models directly in your browser. Zoom, pan, and explore every detail effortlessly.
    • Collaboration Spaces: Imagine architects, structural engineers, and contractors working harmoniously in a shared digital space. Invite stakeholders to virtual design reviews. Discuss changes, annotate models, and make informed decisions. Our cloud applications facilitate real-time collaboration, ensuring everyone stays on the same page.
  • Configurable Workflows
    • Custom Workflows: Tailor workflows to your project’s unique needs. Define approval processes, document management, and task assignments.
    • Automated Notifications: Receive alerts when milestones are reached or issues arise.
  • Cloud-Hosted Data Repositories
    • Centralized Data: Securely stores BIM models, documents, and project data in the cloud.
    • Version Control: Track revisions, compare changes, and roll back if needed.

Smart-mining operation platform

The mining industry has faced age-old challenges: inefficiencies, safety risks, and environmental impact. Manual processes, siloed data, and a lack of real-time insights have hindered progress.

To overcome these limitations, SPS Inc. has developed Smart-Mining Operation Platform leveraging Cutting-Edge Techniques of:

  • Artificial Intelligence (AI): Predictive analytics, anomaly detection, and resource optimization.
  • Simulation: Realistic modeling of mining processes and scenarios.
  • Optimization: Fine-tuning operations for maximum efficiency.
  • Augmented Reality (AR): Enhancing visualization and safety.
  • Virtual Reality (VR): Immersive experiences for training, design, and site exploration.


The services that Smart-Mining Operation Platform presents include:

  • Mine Production Planning
    • Optimize extraction schedules based on geological data, equipment availability, and market demand.
    • AR-enhanced visualization ensures efficient resource allocation.
  • Smart Fleet Management Solutions
    • Real-time tracking of vehicles and equipment.
    • Predictive maintenance to minimize downtime.
    • AR overlays guide operators during maintenance tasks.
  • Waste & Tailings Management
    • VR simulations for waste containment design.
    • Monitor tailings ponds remotely using AR interfaces.
  • Mineral Processing Productivity
    • Simulation-driven process optimization.
    • VR-based training for plant operators.
  • Construction Management in Mining & Processing Plants
    • AR-assisted assembly and maintenance.
    • Safety walkthroughs before physical construction.
  • Virtual Reality Services for Mining Operations
    • Site tours, training, and design validation.
    • Risk-free exploration of hazardous areas.

PCL cable routing optimization platform

In the field of infrastructure and industrial projects, the optimization of electrical cable routing presents significant challenges due to the complexity of project landscapes. Developed in collaboration with PCL Industrial Management Inc., Automatic Cable Routing Framework offers a novel solution tailored for the streamlined planning and execution of projects necessitating intricate cable installations.

This innovative system integrates data modeling, algorithmic route planning, and graph theory into a comprehensive suite that automates the cable routing process. By addressing the inefficiencies in traditional methods, the framework significantly reduces the potential for human error and streamlines construction processes, resulting in cost-effective and efficient project execution.


The framework features include:

  • Path Planning: Utilizes shortest path algorithms to automatically calculate the most efficient routes for cable installation, considering various constraints and project-specific requirements.
  • Path Checking: Utilizes advanced algorithms to automatically reconstruct 2D and textual routes to comprehensive, detailed 3D routes for reviewing electrical designer’s plans and estimations.
  • Cable Length Estimation: Accurately calculates cable length based on project-specific weights and safety factors.
  • Field Routing and Tray Installation: Automatically identifies the necessary field routing outside common electrical trays and conduits. This system also recommends new field tray installation based on analyzed routes.
  • Fill Rate (Capacity): Systematically checks for electrical conduits’ capacity based on project-specific regulations.
  • Data Modeling and Information Management: Consolidates project data into a coherent model, facilitating efficient management and automated extraction of essential information from 3D-BIM models.
  • Automated 3D BIM Model Checking: Using user-defined parameters, problems in the extracted model are automatically identified using user-defined rules.
  • CAD-based Network Representation: Represents operational networks graphically to simplify the identification and resolution of potential routing conflicts.
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