Morteza Mirshekari, PhD, PE, Geotechnical Follow Supervisor, California, Atlas Founder, GeoIntegrate
Morteza Mirshekari, PhD, PE, Geotechnical Follow Supervisor, California, Atlas Founder, GeoIntegrate
With over 15 years of mixed expertise in business and analysis, Dr. Mirshekari makes a speciality of geotechnical evaluation, design, development, and the administration of complicated geotechnical tasks. He’s the California Geotechnical Follow Supervisor at Atlas Technical Consultants and the Founding father of GeoIntegrate. He has revealed greater than 15 papers in extremely regarded geotechnical journals and conferences and has delivered award-winning displays at over ten prestigious geotechnical venues. Dr. Mirshekari has served because the lead engineer on quite a few private and non-private sector tasks involving complicated basis methods, slope stability evaluation, seepage modeling, earth-retaining constructions, railways and roadways, airfields, and geotechnical instrumentation. His experience in geotechnical earthquake engineering consists of floor movement hazard evaluation, site-specific response, seismic deformation modeling, soil-structure interplay evaluation, liquefaction hazard evaluation, and lateral unfold evaluation. Drawing from his in depth expertise in geotechnical engineering, he based GeoIntegrate, a platform designed to unify subsurface investigation, basis design, retaining construction evaluation, and earthquake engineering inside a single, streamlined digital atmosphere.
Geotechnical Software program Historical past
Though geotechnical engineering started to be acknowledged as a definite self-discipline within the Nineteen Twenties, the primary significant pc purposes within the area didn’t emerge till the Eighties. These early software program instruments, primarily developed in tutorial settings, centered on logging and database administration, restrict equilibrium evaluation, and finite component strategies. Examples embody PLAXIS, originating from Delft College of Expertise, and Slide2, developed on the College of Toronto. These instruments aimed to streamline cumbersome hand calculations, increase computational capabilities, and tackle the rising want for environment friendly geotechnical knowledge administration.
By the late Nineteen Nineties, the geotechnical software program panorama had developed considerably, with an rising variety of industrial purposes protecting areas reminiscent of pile design (axial and lateral), shallow basis bearing capability, settlement estimation, liquefaction evaluation, and seismic sign processing. The implementation of software program options not solely improved effectivity but in addition launched standardization, guaranteeing consistency and high quality management, notably for exterior evaluations and regulatory compliance.
By Streamlining Workflows And Lowering Software program Fragmentation, Cloud-Primarily based Options Provide A Extra Sensible Method To Trendy Geotechnical Engineering
Current Technological Developments
In recent times, the geotechnical software program panorama has shifted towards cloud-based purposes, primarily specializing in logging and database administration, instrumentation and distant sensing, and historic knowledge repositories. The widespread availability of high-speed web and wi-fi expertise has made this transition attainable, whereas the rise of distant work, notably after the 2019 pandemic, accelerated its adoption. With the power to entry knowledge from anyplace, engineering groups have acknowledged the advantages of cloud-based platforms for enhancing effectivity and collaboration.
These platforms present real-time entry to geotechnical knowledge, permitting engineers to enter and retrieve data instantly from the sphere with out counting on guide knowledge entries and transfers. Centralized database administration improves consistency and reduces errors, whereas built-in high quality management algorithms assist validate inputs. Cloud-based options additionally improve collaboration by enabling a number of customers to work on the identical dataset concurrently, guaranteeing that groups throughout totally different places can seamlessly coordinate and share insights.
Even with these advantages, most geotechnical purposes nonetheless require native installations, creating inefficiencies and limiting accessibility. Whereas cloud-based options are gaining traction, the business has but to completely transition to an built-in, on-line strategy.
Challenges within the Present Geotechnical Software program Panorama
Whereas cloud-based purposes have gotten extra frequent in geotechnical engineering, most software program options stay offline, requiring native installations and guide updates. Engineers usually depend on a number of standalone applications for various duties, reminiscent of web site background research, logging, calculations, and reporting. This fragmented strategy creates inefficiencies, as switching between platforms will increase the danger of inconsistencies and errors whereas slowing down mission workflows.
Licensing limitations additional complicate accessibility. Many software program packages require costly floating licenses, and a few nonetheless rely on bodily dongles that may be misplaced or should be shipped between workplaces. As well as, perpetual licenses are expensive, and single-version installations shortly develop into outdated as business requirements evolve. These challenges, mixed with the necessity for engineers to juggle varied software program instruments for various elements of a mission, spotlight the dearth of a completely built-in answer within the present geotechnical software program panorama.
The Way forward for Built-in Geotechnical Software program
The following main evolution in geotechnical engineering would be the transition to completely built-in, cloud-based platforms. This shift will allow engineers to handle your entire geotechnical workflow—from web site background research to logging, calculations, and reporting—on a single, seamless platform.
Past comfort, this transition is important because of the rising scarcity of skilled geotechnical engineers. As the sphere shifts towards a supervisory and analytical function relatively than guide knowledge processing, engineers would require smarter, AI-assisted software program to streamline workflows and maximize productiveness.
GeoIntegrate: A Unified Cloud-Primarily based Answer
GeoIntegrate (https://geo-integrate.com) is main the transition towards modernized geotechnical software program by providing a cloud-based platform that addresses the inefficiencies of conventional standalone purposes. In contrast to present options that primarily deal with logging and database administration, GeoIntegrate goals to create a extra interconnected ecosystem the place varied geotechnical instruments can work collectively seamlessly. By shifting away from offline, fragmented software program, GeoIntegrate enhances accessibility, effectivity, and collaboration in geotechnical workflows.
Presently, GeoIntegrate offers three operational modules: GI-Log, a knowledge visualization and area database administration device; GI-SPT, which presents empirical design correlations; and GI-Liquefaction, designed for superior liquefaction triggering and post-hazard evaluation. These modules cut back the necessity for guide calculations and enhance consistency in geotechnical assessments. The cloud-based infrastructure ensures that customers can entry knowledge from any location, eliminating the dependency on bodily dongles and restrictive licensing. Constructed-in validation algorithms improve knowledge accuracy and high quality management, minimizing errors in engineering calculations.
Trying forward, GeoIntegrate envisions a completely built-in platform that brings collectively subsurface investigation, basis design, retaining construction evaluation, and earthquake engineering right into a single, streamlined answer. Whereas this allin-one mannequin continues to be in growth, the platform is laying the groundwork for future AI-powered instruments that may additional automate processes and enhance predictive modeling. As GeoIntegrate continues to increase, it’s positioning itself as a key driver of innovation within the geotechnical software program market.
As GeoIntegrate continues to develop, it displays a broader shift within the geotechnical business towards extra built-in and accessible software program options. The transition from standalone offline purposes to cloud-based platforms is turning into more and more crucial to enhance effectivity, accuracy, and collaboration. By streamlining workflows and lowering software program fragmentation, cloud-based options like GeoIntegrate supply a extra sensible strategy to fashionable geotechnical engineering. As adoption grows, these developments will assist standardize processes and improve the general reliability of geotechnical knowledge administration and evaluation.
