AUTOParkit systems improve the customer experience, drive productivity, and achieve world-class operations by incorporating numerous pillar technologies to support long-term adaptations and evolving market requirements.
AUTOParkit is a transformative addition to any commercial development. Each system individually or collectively leverages pillar technologies providing an integrated ecosystem that starts in the virtual world and transfers throughout the asset’s life cycle.
Digital Twin
Digital operating code is used to create a virtual working model of your parking garage or high-density dry rack boat storage building or personal storage containers rack system before it is ever physically built. This aids validation of performance metrics before the actual system is built. Dasher Lawless engineers can simulate all processes in the virtual environment. It involves the entire production line of mechanics, electronics, software, power utilization, and system performance. Sources of error or failures can be identified and prevented before building live operations. Furthermore, additional subsystems (e.g. Load Bays) can be incorporated into the design to meet throughput requirements. Virtual commissioning can be completed off-site to reduce construction and installation schedules.
DIGITAL THREAD
Makes connections to critical information, allowing to track a product and its digital assets from concept, design, manufacturing, quality, as well as field maintenance.
(plm) Product Life
Cycle Management
PLM enables digital twin and digital thread across multiple phases of product development and ensures traceability across the life cycle of the product. AC motors used extensively in the modular, scalable architecture are individually tracked for current draw and hours of operations to predict EOL (End of Life). They can be replaced or repaired to improve the MTBF (Mean Time Between Failure).
bIg data
Every event, warning, and fault notification is collected, and timestamped before being stored in a database. The possibilities are endless for measuring variables such as time to park or time to store. The number of employees parking versus paid external users could be queried. Data queries are endless.
machine learning
This type of Artificial Intelligence (AI) allows software applications to become more accurate at predicting outcomes without being explicitly programmed to do so. Machine learning algorithms use historically collected data to predict new output values. This functionality is crucial as it learns user behavior patterns. You leave the office every day at 3:30 PM, so AUTOParkit will begin moving your vehicle for a faster exit position before your request in anticipation. Machine Learning is also used in predictive maintenance to assure a high level of uptime.
(IOt)internet of things
AUTOParkit includes sensors, automation systems, actuators, and power utilization to process predictive maintenance for enhanced efficiencies. The goal is to understand and replace components before their end of life to prevent equipment failures. Dasher Lawless installs numerous IP cameras in the garage allowing around-the-clock remote viewing.
cloud computing
The real-time data exchange of information, connecting people, payment systems, system usage, and facility-wide camera capturing data. Sending monthly invoices by an AUTOParkit System can be automatically calculated and distributed, reducing the accounting personnel’s workload.
bIg data
Every event, warning, and fault notification is collected, and timestamped before being stored in a database. The possibilities are endless for measuring variables such as time to park or time to store. The number of employees parking versus paid external users could be queried. Data queries are endless.
system integration
Allows connectivity between machines, third-party software or systems, staff members, and users. We design a combination of multiple software packages, computing systems, and business processes to develop a more extensive procedural plan. Our methodology combines software applications and subsystems to new novel functionalities, thereby boosting the value of independent subsystems working together. In many cases, we can eliminate duplicative systems between building technologies and those in our system. We have powerful APIs to offer connectivity to Siemens Intelligent Building Services and other enhanced service provider systems.
Autonomous Systems
The devices that require little or no human intervention for their operations are autonomous systems. By reducing human intervention, these systems reduce the opportunity for human error. Our system can connect to other autonomous systems delivering an ecosystem of new enhanced service creation features unique and customized to the individual. Autonomous cars can communicate in an AUTOParkit garage allowing self-parking and EV charging capabilities.
Autonomous Valet Services can communicate and allow parking into AUTOParkit garages. Autonomous Buildings can share with AUTOParkit to provide enhanced concierge services. For example, passenger elevators can be automatically triggered to meet the arrived user. Pathways can be lit appropriately, and passage doors unlocked to create a more welcoming environment for those entering a building.