Applications | Page 13 of 63 | Locus Technologies

The Port of Seattle selects Locus Technologies for Permit Compliance Tracking Software

MOUNTAIN VIEW, Calif., 29 November 2022 — Locus Technologies (Locus) is pleased to announce that The Port of Seattle (Port) has selected Locus’ multitenant Software as a Service (SaaS) for its Environmental Permit Compliance Tracking software. The Port of Seattle is a government agency overseeing the seaport and airport of Seattle. Their portfolio ranges from parks and waterfront real estate to one of the largest airports and container terminals on the West Coast. With Locus’ software, the Port of Seattle’s Maritime Environment & Sustainability department will track and manage compliance with their many permits associated with ongoing Maritime operations. This win represents additional work under Locus’ existing 10-year contract with the Port.

Locus’ SaaS will replace existing systems, which no longer meet the Port’s requirements. The Port will use Locus’ configurable compliance features to track, notify, and manage thousands of regulatory commitments for the Port and its facilities. Locus software provides a unified system for environmental data management and compliance and allows the flexibility to adapt to regulatory changes over the course of the contract.

“We are very pleased that Port of Seattle after selecting Locus earlier this year, recognized the power and flexibility of Locus and extended the use of Locus to include Permit Compliance. The Port selected Locus software because it meets a wide set of robust permit tracking and notification requirements for their active Maritime operations. The Port will streamline tracking of environmental compliance obligations using Locus’ SaaS with a configuration suited to their business processes,” said Neno Duplan, CEO of Locus.

Getting More from your Environmental Data using Dashboards with Integrated Mapping

Today is GIS Day, a day started in 1999 to showcase the many uses of geographical information systems (GIS). Earlier Locus blog posts have explained how GIS and maps support visualization of objects in space and over time. This post covers a specific visualization method called data dashboards.

A data dashboard is a combination of charts, maps, text, and images that enables analysis of data and thereby promotes discovery of previously unknown relationships in the data. Companies and organizations use dashboards to develop insight into the overall status of a company or of a company division, process, or product line. Dashboards are also a common function in ‘business intelligence’ applications such as Microsoft Power BI and Tableau. A printed dashboard is static, but an online dashboard can be dynamic; in a dynamic dashboard, interacting with one item on the dashboard causes the other items to update. Taken together, the visualizations on a dynamic dashboard can help you find the story in your data.

One reason dashboards are so helpful is that they allow humans to partially ‘offload’ their thinking. Cognitive research has shown that human ‘working memory’ handles at most four items at a time. A good visualization, however, reduces the number of items to process in memory.

Consider a large table of carbon dioxide emissions by country for multiple years; it can be difficult to keep all the numbers in mind if you are trying to find trends.

If you plot the data in a graph, however, each series of data in the chart becomes just one line on the graph. It is much easier to compare lines on the chart than to compare columns of numbers.

Now consider making a map with countries color coded by emissions. Again, for each country, the map reduces multiple numbers to a single color for that country on the map. You can compare country colors more easily than columns of numbers.

A dashboard that combines multiple visualizations further enhances data analysis. Imagine a dynamic dashboard showing you both the emissions chart and map described above. If you select a country on the map, the chart can highlight the line for that country, so you compare its emissions to other countries over time. Similarly, if you select a line on the chart for a specific country, the map can highlight the selected country to show how its emissions compare to nearby countries. This interactivity lets you drill into your data more effectively than using either the chart or the map by itself.

Here are three examples of effective dashboards that are available online:

The Covid-19 dashboard from John Hopkins shows a map, charts, and tables of Covid -19 cases.
The Global Climate Dashboard from NOAA shows charts of multiple climate indicators.
The Carbon Pricing dashboard from the World Bank lets you drilldown to see carbon pricing initiatives for various nations.

Locus includes data dashboards in our applications. One example is the Site Metrics dashboard in EIM, Locus’s cloud-based, software-as-a-service application for environmental data management. The Site Metrics dashboard lets you perform roll-up queries across your portfolio of sites. A map on the dashboard shows all states with active sites. If you select one or more states, the dashboard updates the charts and tables on the right to show total sites, user logins, and record counts. Other dashboards can support showing sample locations of certain chemicals or counts of regulatory limit exceedances.

A further example comes from the Locus Environmental Social and Governance (ESG) application. ESG metrics are becoming increasingly important measures for an organization’s performance. Data dashboards can help companies quickly visualize trends in their ESG metrics using intuitive mapping tools.

This dashboard illustrates both spatial and time trends and provides the raw data necessary for auditability and transparent decision making. Having these features on a single combined view provides users with instant access to the key inputs for ESG prioritization, planning, and project implementation.

As these examples from Locus show, data dashboards with integrated mapping are important tools for maximizing the value of your collected environmental and ESG data. For any dataset with a geographic component, it’s important to incorporate mapping elements in the outputs, to highlight trends and patterns that may not otherwise be visible in a chart or table. Modern software can combine these output formats in a way that tells the story shown by your data.

Interested in Locus’ GIS solutions?

Locus GIS+ features all of the functionality you love in EIM’s classic Google Maps GIS for environmental management—integrated with the powerful cartography, interoperability, & smart-mapping features of Esri’s ArcGIS platform!

[sc_button link=”https://www.locustec.com/applications/gis-mapping/” text=”Learn more about Locus’ GIS solutions” link_target=”_self” color=”#ffffff” background_color=”#52a6ea” centered=”1″]

[sc_image width=”150″ height=”150″ src=”16303″ style=”11″ position=”centered” disable_lightbox=”1″ alt=”Dr. Todd Pierce”]

About the Author—Dr. Todd Pierce, Locus Technologies

Dr. Pierce manages a team of programmers tasked with development and implementation of Locus’ EIM application, which lets users manage their environmental data in the cloud using Software-as-a-Service technology. Dr. Pierce is also directly responsible for research and development of Locus’ GIS (geographic information systems) and visualization tools for mapping analytical and subsurface data. Dr. Pierce earned his GIS Professional (GISP) certification in 2010.

A More Robust EHS Software Solution

One of the most frequent conversations we have is with EHS professionals who approach us with struggles concerning their current software solution. They often seek out Locus out of frustration, because their current software provider focuses almost exclusively on the safety side of EHS. While there’s nothing innately wrong with focusing on one aspect of EHS, most professionals need a more robust software to meet their needs. They need a solution that can handle the environmental side of EHS.

When we ask what they’re missing, it ranges depending on their current software, and most commonly these professionals don’t have the ability to automate environmental data collection, management, and reporting. They are, for the most part, entering everything by hand and reporting to local, state, and federal agencies manually. The lack of a proper solution from their current provider means that they’re doing more work and potentially misreporting due to repeat entry errors.

EHS professionals Must focus on a wide range of issues, and a lack of versatility in their software solution means that they have to work harder to fill in the gap in their existing process and software solutions. When Locus is approached, most of the time it’s by professionals seeking relief, and they find us because we offer a tool that both meets their needs and makes their work less stressful.

The environmental side of EHS is vast, and professionals are expected handle anything from air and GHG emissions to water, waste and beyond. And while other providers offer anything from a bare bones solution to enough to get by, Locus knows that a robust solution can reduce the burden, time, and potential inaccuracies that EHS professionals face. We know because we’ve been there. Locus software is developed by and for EHS professionals. Our domain experts have had to deal with the struggles of subpar software, so that’s why we make a solution to fit the needs of our peers. That’s why our EHS software features a full suite of solutions, and a robust calculation engine.

Are you seeking to simplify your data management, reporting, and visualization with a modern EHS software solution? Reach out and speak with a domain expert today.

Locus at 25 Years: A Long-Term Vision for Environmental Stewardship

Over the longer term, we envision a world where we can use shared environmental data to take a more concerted approach to our collective environmental stewardship. We consider the work at Locus an essential step in addressing a monumental global problem.

The conversation about the environmental landscape has evolved drastically over the last 50 years as we continue to understand how human activity has affected the planet. The 21st century’s environmental challenges are manifold as shortages of drinkable water; the impact of various pollutants that enter our atmosphere, including greenhouse gas emissions, wastewater, radioactive materials, and other hazardous materials; the strains of our ever-increasing population on limited resources, and threatened ecosystems; and climate change causing extreme weather conditions to push more and more of the population into a precarious situation.

Companies and society need a collective and holistic understanding of the problems we face. The only way to understand the whole picture and act meaningfully on a global level is for all companies to understand the impact of their activities. It’s impossible to mitigate the risks and effects of those activities on the planet when we do not have the data to characterize the problem and see a complete picture of what we face.

This whole picture will require us to monitor an unprecedented quantity of data, and with this massive data explosion, Locus’s current efforts come into play. We are working to ensure that we are prepared for this ever-increasing data tsunami by laying the groundwork with the companies and government agencies Locus works with daily. They are already tracking increased data, analyzing their activities, finding ways to operate more efficiently, producing fewer emissions and less wastewater, and improving their environmental footprints. Locus would like to see the scale of those mitigation efforts increase a thousand-fold over the next ten years and for our efforts to yield clear improvements in our collective environmental impacts.

While someday we may have environmental data sharing among all public and private organizations, the regulatory bodies that govern them, and the scientific community, which will provide us with an even more complete picture of our environmental activities, any coordinated effort is years in the making. In the meantime, Locus ensures we are ready to help tackle the problem.

This is the final post highlighting the evolution of Locus Technologies over the past 25 years. The previous post can be found here.

Locus at 25 Years: Climate Change Software, A Generational Opportunity

For many, climate change management and carbon accounting present a new opportunity, a new domain to be conquered by software. The upside looks huge, next frontier, next bubble. But it is not that simple. Instead of a single part, there is a family of domains, each with its not that simple science interwoven with many unsynchronized reporting standards and sometimes competing regulations. There are no clear regulations or other drivers to normalize the playing field. Nevertheless, ESG reporting created a hype that looks more like the medieval battle for territory.

Locus software has dominated the EHS compliance space for the last two decades. Consequently, Locus has the best shot at the ESG software market as the company has been gradually pivoting into sustainability software for some time. Locus software already manages most enterprise customers’ data in their EHS apps necessary for ESG reporting. Most importantly, Locus has the domain expertise to build software applications to match the complexity of ESG reporting and carbon accounting. In other words, Locus understands the science behind data and has used this expertise to quickly build a science-based reporting infrastructure leveraging Locus’ already strong presence in the space.

Locus’s applications are based on science and backed by data primarily from the EHS compliance for companies that disclose their information based on verified scientific data and actual readings from their instruments, lab results, resource consumption, waste generation, or water and energy management.

One of the biggest drivers of ESG software will be the convergence of climate change, water, and energy crises in the coming years. This sustainability and EHS compliance elements must coexist in a highly scalable real-time software platform that only a modern, multitenant cloud architecture offers. Locus has it.

Locus ESG software offers a SaaS platform that incorporates unified data layers that give Locus customers a consolidated view of their data across different business silos, scopes, and integrated EHS and ESG platforms.

Locus’ unified data layer brings varying data sources together to offer a single view of a company’s climate-related data. Using Locus’s shared SaaS-based applications and platforms could also give investment managers tools to evaluate their investment strategies and up-to-date opinions on their portfolio performance on ESG elements.

At Locus, we are genuinely driven by the dynamic industries we serve and the changing environmental landscape we must all work to safeguard. We help solve our customers’ complex environmental problems, improve the way environmental professionals work, and offer new ways to organize vast amounts of environmental, sustainability, and energy data on the Web. We turn environmental and energy data into actionable, real-time information. Most importantly, we help our clients lower operating costs and reduce environmental risk exposure and liability.

This is the eighth post highlighting the evolution of Locus Technologies over the past 25 years. The previous post can be found here. This series concludes with Locus at 25 Years: A Long-Term Vision for Environmental Stewardship.

Locus at 25 Years: A Unified Approach to EHS and ESG

Locus’s strategic focus has always been to deliver intelligent, well-designed software applications that add value to customers’ bottom lines. The success of these applications is rooted in the deep environmental domain and content experience of the Locus team, its proven data management capabilities, and its view that customers who own their data maintain a competitive advantage over those that don’t.

Locus’s perseverance developed the world’s first commercial online environmental information management, collaboration, and compliance system. Locus’ EIM revolutionized how environmental data is stored, accessed, managed, and reported— ultimately saving customers time and money and giving them the power to be “green on demand.” Locus Platform gave customers tools to consume EIM data in various applications built on top of it, communicating with each other. Locus delivered the industry’s first unified EHS compliance and ESG reporting system.

Locus SaaS has evolved to encompass more and more aspects of strategic business planning. While a critical incentive to using Locus Platform and EIM systems is regulatory compliance, Locus has taken a more comprehensive view of the mandate to improve environmental stewardship by creating plans to improve environmental performance across clients’ organizational silos; sites, and regulatory programs; emission sources to air, soil, or water; energy management; all aspects of Environmental Health and Safety (EH&S) issues, sustainability and ESG reporting, and technology platforms and mobile devices. 

While most environmental software firms have focused on tracking one area of concern, such as greenhouse gases or incident management, Locus built the most comprehensive software platform for managing compliance and organizing environmental and resource data and information. Using Locus’ SaaS, customers can collect, organize, search, report, maintain, and preserve all the required documentation and data for environmental compliance and sustainability management. Locus integrates risk management, compliance, sustainability management, and water quality management under a single umbrella. Locus software integrates with other enterprise resource planning software—part of the big picture for governance, risk and compliance (GRC), risk management, compliance, and health and safety software.

Our holistic view of GRC enables transparency and connectivity across an organization – sparking the insights that most organizations need to make better decisions.

Our SaaS platform supports leading organizations by:

Providing visibility into GRC and ESG across their organizations
Automating workflows to increase efficiency and scalability
Keeping customer’s businesses compliant with regulatory standards
Delivering real-time insights and reports through robust storyboards for data-driven strategic decision making

The resulting Locus applications, primarily EIM and Locus Platform, help companies better record, track, manage, analyze, and share information regarding water, air, energy, waste, sustainability, ESG, and EHS compliance management.

This is the sixth post highlighting the evolution of Locus Technologies over the past 25 years. The previous post can be found here. This series continues with Locus at 25 Years: Innovative Approach and Plans.

The Port of Seattle selects Locus Technologies for its Environmental Software

MOUNTAIN VIEW, Calif., 24 June 2022 — Locus Technologies (Locus) is pleased to announce that The Port of Seattle (Port) has selected Locus’s multitenant Software as a Service (SaaS) for its environmental data management and compliance software. The Port of Seattle is a government agency overseeing the seaport and airport of Seattle. Their portfolio ranges from parks and waterfront real estate to one of the largest airports and container terminals on the West Coast. With Locus’s software, The Port will streamline its environmental management across its properties. The term of this contract is ten (10) years with a contract value of over one million dollars.

The Port of Seattle competitively procured environmental software that will serve as the Port’s centralized system for managing environmental data and information, site investigations and permit compliance for Aviation and Maritime Port operations.

Locus’s cloud software will replace several existing systems, which no longer meet the Port’s requirements. Locus’s software combines the power of EIM’s environmental data analytical and reporting capabilities with Locus Platform’s configurable compliance features to track, notify, and manage regulatory commitments for the Port and its contractors. Locus software provides a unified system for environmental data management and compliance and allows the flexibility to adapt to regulatory changes over the course of the contract.

“We are very pleased that Port of Seattle recognized the power of our cloud software. The Port selected Locus software due to its robust environmental data management and compliance capabilities tested for nearly a quarter-century in the cloud. With Locus, the Port will have all data in a central data repository available on the web 24 hours a day, seven days a week. Port will reap the benefits of using Locus’ SaaS to manage and automate their environmental data, compliance, and reporting,” said Neno Duplan, CEO of Locus.

Locus at 25 Years: How Did We Fund Locus?

Many in our material-driven culture, particularly in Silicon Valley, assign more excellent value to companies based on how much venture capital or private equity money they have raised or how quickly their companies have grown after initial seeding, and less to founders who bootstrapped their companies from nothing and after that, positioned them for long and steady growth. Although the term means different things in different areas of knowledge, in entrepreneurship, bootstrapping is the process of starting a business with little or no external funding.

Locus has proven that how much funding a startup company has raised or how quickly it has grown are the wrong metrics to measure a company’s success, particularly in the arena of environmental compliance and data management. We bootstrapped Locus in 1997 and, without outside capital, created a new industry at the intersection of two significant trends before either was a trend: the growth in Internet usage and the growth in the acquisition, storage, and analysis of environmental information. Locus not only defined and pioneered this new space of environmental information management in the cloud but also became an industry leader leaving behind many well-funded startups with “borrowed ideas” and established ERP software companies. At every startup stage, some actions are “right” for the startup to maximize return on time, money, and effort. Fortunately, Locus took the necessary steps that allowed it to weather several recessions and market downfalls.

While bootstrapping techniques are not just limited to funding, they also apply to how companies are run. By bootstrapping Locus, we created a built-to-last, slow-burn startup that was focused on the singular goal of building a cloud-based environmental data information management system and avoided expending effort on expanding applications that the market did not need or those that we were too dependent on external help. Bootstrapping provided Locus with a strategic roadmap for achieving sustainability through customer funding (i.e., partnering with customers)—if it is essential for Locus, it must be necessary for the customer first. If it is vital for customers, they must pay for a portion of it and have “skin in the game. “We don’t build applications to attract customers. We attract customers with our ideas to build applications together” became Locus’s modus operandi: Locus was born and built with this simple philosophy.

Once Locus had built a solid customer base, Locus encouraged its paying customers to become consultants who defined the Locus product map. This strategy resulted in a rapid evolutionary expansion of Locus’ software in the marketplace. Crowdsourcing product development from customers with real-world problems has become the cornerstone of Locus’ success in the market.

Let us digress here to comment on what it takes to build an environmental database management system. In the 1990s, when Dr. Duplan was leading the development of a client-server database for his then-employer (there were no internet-based databases back then), he and others now at Locus attended a trade show where a product called Oracle Environmental or something like that was being marketed. Yes, this is the same Oracle that is now one of the largest software companies in the world, with a market cap in the hundreds of billions, revenues in the tens of billions, profits in the billions, and over 130,000 employees.

This small group of engineers and scientists wondered how they could compete against a growing behemoth like Oracle with all its programmers and financial resources. They listened to a marketing spiel and took the system for a test drive at Oracle’s booth. Their worries almost immediately vanished. What they saw was characterized by all as a system that was “a mile wide and an inch deep.” It was designed and developed by individuals with no field experience, little or no engineering or scientific expertise, and little understanding of environmental data and data flow. It claimed to touch on many different types of data (which it did) but owing to its lack of depth, it clearly could not work in the real world. Sure enough, the product was gone within a few years.

In contrast, EIM has been designed and developed by individuals with advanced degrees in civil and environmental engineering, water resources, geology, chemistry, and biology. All who are not solely computer programmers have spent serious time in the field, have overseen the drilling of boreholes and wells, planned and collected samples, verified and validated analytical data, and have created data reports for internal, external entities. These individuals are very cognizant of the vagaries of environmental data.

When giving demos of the system, we are often peppered with questions such as:

How do you calculate the groundwater elevation in a well that has some saline in the groundwater?
Can your system handle different units when reporting or calculating statistical measures?
Does your system have a means of accommodating dilutions when validating your data?
How does your system handle synonyms for parameters or alternate location names?
Does your system store TEFs?
Does your validation module assign qualifiers, and if so, how?
Can your system accommodate changes in well reference elevations?
Is your system’s data validation module based on SDGs, analysis lots, sample prep lots, or a combination?
To what extent and level are your systems capable of tracking a sample from planning to the grave?

All these questions make sense to us, and we have an answer to them. Our deep domain expertise in such matters, coupled with our backgrounds in engineering and the sciences and our relevant work experience, has enabled us to work with our customers to build ground-breaking tools and modules for our products that work for all companies.

While other environmental software companies have come and gone—often after getting much press, only to fizzle out on broken promises and dried-up funding, Locus has never wavered from its path to provide environmental data management services to corporations and government agencies. Despite the absence of a flashy PR machine and VC or PE funding, Locus has continued to be a profitable, independent, and visionary organization, which is now considered one of the top environmental software companies in the world.

This is the fourth post highlighting the evolution of Locus Technologies over the past 25 years. The first three can be found here and here, and here. This series continues with Locus at 25 Years: Blockchain for Emissions Management.

Locus at 25 Years: Locus Platform, Multitenant Architecture, the Secret of our Success

Locus Platform

Locus Platform is the preeminent on-demand application development platform for EHS, ESG, and beyond, supporting many organizations and government institutions. Individual enterprises and governmental organizations trust Locus’s SaaS Platform to deliver robust, reliable, Internet-scale applications. The foundation of Locus Platform (LP) is a metadata-driven software architecture that enables multitenant applications. This unique technology, a significant differentiator between Locus and its competitors, makes the Locus Platform fast, scalable, and secure for any application. What do we mean by metadata-driven? If you look up metadata-driven development on the web, you find the following:

“The metadata-driven model for building applications allows an Enterprise to deploy multiple applications on the same hosting infrastructure easily. Since multiple applications share the same Designer and Rendering Engine, the only difference is the metadata created uniquely for each application.”

The Triumph of the Multitenant SaaS model, which Locus brings to the EHS/ESG industry.

In the case of LP, it is the Designer and Rendering Engine cited in this definition. All LP customers share this engine and use it to create their custom applications. These applications may consist of dashboards, forms to enter data, plots, reports, and so forth, all designed to meet a set of requirements. Instructions (metadata) stored in a database tell the engine how to build these entities, the total of which form a client-designed application.

Locus Platform’s evolution to the leading EHS and ESG Platform.

History has shown that every so often, incremental advances in technology and changes in business models create significant paradigm shifts in the way software applications are designed, built, and delivered to end-users. The invention of personal computers (PCs), computer networking, and graphical user interfaces (UIs) gave rise to the adoption of client/server applications over expensive, inflexible, character-mode mainframe applications. And today, reliable broadband Internet access, service-oriented architectures (SOAs), and the cost inefficiencies of managing dedicated on-premises applications are driving a transition toward the delivery of decomposable, collected, shared, Web-based services called software as a service (SaaS).

With every paradigm shift comes a new set of technical challenges, and SaaS is no different. Existing application frameworks are not designed to address the unique needs of SaaS. This void has given rise to another new paradigm shift, namely platform as a service (PaaS). Hosted application platforms are managed environments specifically designed to meet the unique challenges of building SaaS applications and deliver them more cost-efficiently.

The focus of Locus Platform is multitenancy, a fundamental design approach that dramatically improves the manageability of EHS and ESG SaaS applications. Locus Platform is the world’s first PaaS built from scratch to take advantage of the latest software developments for building EHS, ESG, sustainability, and other applications. Locus Platform delivers turnkey multitenancy for Internet-scale applications.

Locus Multitenancy

A single shared software and hardware stack across all customers.

The same applies to many different sets of users; all Locus’ LP applications are multitenant rather than single-tenant. Whereas a traditional single-tenant application requires a dedicated group of resources to fulfill the needs of just one organization, a multitenant application can satisfy the needs of multiple tenants (companies or departments within a company, etc.) using the hardware resources and staff needed to manage just a single software instance. A multitenant application cost-efficiently shares a single stack of resources to satisfy the needs of multiple organizations.

Single-tenant apps are expensive for the vendor and the customer.

Tenants using a multitenant service operate in virtual isolation: Organizations can use and customize an application as though they each have a separate instance. Yet, their data and customizations remain secure and insulated from the activity of all other tenants. The single application instance effectively morphs at runtime for any particular tenant at any given time.

Single-tenant apps create waste

Multitenancy is an architectural approach that pays dividends to application providers (Locus) and users (Locus customers). Operating just one application instance for multiple organizations yields tremendous economy of scale for the provider. Only one set of hardware resources is necessary to meet the needs of all users, a relatively small, experienced administrative staff can efficiently manage only one stack of software and hardware, and developers can build and support a single code base on just one platform (operating system, database, etc.) rather than many. The economics afforded by multitenancy allows the application provider to, in turn, offer the service at a lower cost to customers—everyone involved wins.

Some attractive side benefits of multitenancy are improved quality, user satisfaction, and customer retention. Unlike single-tenant applications, which are isolated silos deployed outside the reach of the application provider, a multitenant application is one large community that the provider itself hosts. This design shift lets the provider gather operational information from the collective user population (which queries respond slowly, what errors happen, etc.) and make frequent, incremental improvements to the service that benefits the entire user community at once.

Two additional benefits of a multitenant platform-based approach are collaboration and integration. Because all users run all applications in one space, it is easy to allow any user of any application varied access to specific data sets. This capability simplifies the effort necessary to integrate related applications and the data they manage.

Gartner Chart Showing Locus Technologies

Gartner recognized the power of the Locus Platform in their early research.

This is the third post highlighting the evolution of Locus Technologies over the past 25 years. The first two can be found here and here. This series continues with Locus at 25 Years: How did we fund Locus?

Locus at 25 Years: Locus EIM and the Triumph of the SaaS Model

Locus EIM

How did Locus succeed in deploying Internet-based products and services in the environmental data sector? After several years of building and testing its first web-based systems (EIM) in the late 1990s, Locus began to market its product to organizations seeking to replace their home-grown and silo systems with a more centralized, user-friendly approach. Such companies were typically looking for strategies that eliminated their need to deploy hated and costly version updates while at the same time improving data access and delivering significant savings.

Several companies immediately saw the benefit of EIM and became early adopters of Locus’s innovative technology. Most of these companies still use EIM and are close to their 20th anniversary as a Locus client. For many years after these early adoptions, Locus enjoyed steady but not explosive growth in EIM usage.

Triumph of the SaaS Model

E. M. Roger’s Diffusion of Innovation (DOI) Theory has much to offer in explaining the pattern of growth in EIM’s adoption. In the early years of innovative and disruptive technology, a few companies are what he labels innovators and early adopters. These are ones, small in number, that are willing to take a risk, that is aware of the need to make a change, and that are comfortable in adopting innovative ideas. The vast majority, according to Rogers, do not fall into one of these categories. Instead, they fall into one of the following groups: early majority, late majority, and laggards. As the adoption rate grows, there is a point at which innovation reaches critical mass. In his 1991 book “Crossing the Chasm,” Geoffrey Moore theorizes that this point lies at the boundary between the early adopters and the early majority. This tipping point between niche appeal and mass (self-sustained) adoption is simply known as “the chasm.”

Rogers identifies the following factors that influence the adoption of an innovation:

Relative Advantage – The degree to which an innovation is seen as better than the idea, program, or product it replaces.
Compatibility – How consistent the innovation is with the potential adopters’ values, experiences, and needs.
Complexity – How difficult innovation is to understand and use.
Trialability – The extent to which the innovation can be tested or experimented with before a commitment to adoption.
Observability – The extent to which the innovation provides tangible results.

In its early years of marketing EIM, some of these factors probably considered whether EIM was accepted or not by potential clients. Our early adopters were fed up with their data stored in various incompatible silo systems to which only a few had access. They appreciated EIM’s organization, the lack of need to manage updates, and the ability to test the design on the web using a demonstration database that Locus had set up. When no sale could be made, other factors not listed by Rogers or Moore were often involved. In several cases, organizations looking to replace their environmental software had budgets for the initial purchase or licensing of a system but had insufficient monies allocated for recurring costs, as with Locus’s subscription model. One such client was so enamored with EIM that it asked if it could have the system for free after the first year. Another hurdle that Locus came up against was the unwillingness of clients at the user level to adopt an approach that could eliminate their co-workers’ jobs in their IT departments. But the most significant barriers that Locus came up against revolved around organizations’ security concerns regarding the placement of their data in the cloud.

One of the earliest versions of EIM

Oh, how so much has changed in the intervening years! The RFPs that Locus receives these days explicitly call out for a web-based system or, much less often, express no preference for a web-based or client-server system. We believe this change in attitudes toward SaaS applications has many root causes. Individuals now routinely do their banking over the web. They store their files in Dropbox and their photos on sites like Google Photos or Apple and Amazon Clouds. They freely allow vendors to store their credit card information in the cloud to avoid entering this information anew every time they visit a site. No one who keeps track of developments in the IT world can be oblivious to the explosive growth of Amazon Web Services (AWS), Salesforce, and Microsoft’s Azure. We believe most people now have more faith in the storage and backup of their files on the web than if they were to assume these tasks independently.

An early update to EIM software

Changes have also occurred in the attitudes of IT departments. The adoption of SaaS applications removes the need to perform system updates or the installation of new versions on local computers. Instead, for systems like EIM, updates only need to be completed by the vendor, and these take place at off-hours or at announced times. This saves money and eliminates headaches. A particularly nasty aspect of local, client-server systems is the often experienced nightmare when installing an updated version of one application causes failures in others that are called by this application. None of these problems typically occur with SaaS applications. In the case of EIM, all third-party applications used by it run in the cloud and are well tested by Locus before these updates go live.

Locus EIM continues to become more streamlined and user friendly over the years.

Yet another factor has driven potential clients in the direction of SaaS applications, namely, search. Initially, Locus was primarily focused on developing software tools for environmental cleanups, monitoring, and mitigation efforts. Such efforts typically involved (1) tracking vast amounts of data to demonstrate progress in the cleanup of dangerous substances at a site and (2) the increased automation of data checking and reporting to regulatory agencies.

Locus EIM handles all types of environmental data.

Before systems like EIM were introduced, most data tracking relied on inefficient spreadsheets and other manual processes. Once a mitigation project was completed, the data collected by the investigative and remediation firms remained scattered and stored in their files, spreadsheets, or local databases. In essence, the data was buried away and was not used or available to assess the impacts of future mitigation efforts and activities or to reduce ongoing operational costs. Potential opportunities to avoid additional sampling and collection of similar data were likely hidden amongst these early data “storehouses,” yet few were aware of this. The result was that no data mining was taking place or possible.

Locus EIM in 2022

The early development of EIM took place while searches on Google were relatively infrequent (see years 1999-2003 below). Currently, Google processes 3.5 billion searches a day and 1.2 trillion searches per year. Before web-based searches became possible, companies that hired consulting firms to manage their environmental data had to submit a request such as “Tell me the historical concentrations of Benzene from 1990 to the most recent sampling date in Wells MW-1 through MW-10.” An employee at the firm would then have to locate and review a report or spreadsheet or perform a search for the requested data if the firm had its database. The results would then be transmitted to the company in some manner. Such a request need not necessarily come from the company but perhaps from another consulting firm with unique expertise. These search and retrieval activities translated into prohibitive costs and delays for the company that owned the site.

Google Searches by Year

Over the last few decades, everyone has become dependent on and addicted to web searching. Site managers expect to be able to perform their searches, but honestly, these are less frequent than we would have expected. What has changed are managers’ expectations. They hope to get responses to requests like those we have imagined above in a matter of minutes or hours, not days. They may not even expect a bill for such work. The bottom line is that the power of search on the web predisposes many companies to prefer to store their data in the cloud rather than on a spreadsheet or in their consultant’s local, inaccessible system.

The world has changed since EIM was first deployed, and as such, many more applications are now on the path, that Locus embarked on some 20 years ago. Today, Locus is the world leader in managing on-demand environmental information. Few potential customers question the merits of Locus’s approach and its built systems. In short, the software world has caught up with Locus. EIM and LP have revolutionized how environmental data is stored, accessed, managed, and reported. Locus’ SaaS applications have long been ahead of the curve in helping private, and public organizations manage their environmental data and turn their environmental data management into a competitive advantage in their operating models.

We refer to the competitive advantages of improved data quality and flow and lower operating costs. EIM’s Electronic Data Deliverable (EDD) module allows for the upload of thousands of laboratory results in a few minutes. Over 60 automated checks are performed on each reported result. Comprehensive studies conducted by two of our larger clients show savings in the millions gained from the adoption of EIM’s electronic data verification and validation modules and the ability of labs to load their EDDs directly into a staging area in the system. The use of such tools reduces much of the tedium of manual data checking and, at the same time, results both in the elimination of manually introduced errors and the reduction of throughput times (from sampling to data reporting and analysis). In short, the adoption of our systems has become a win-win for companies and their data managers alike.

This is the second post highlighting the evolution of Locus Technologies over the past 25 years. The first can be found here. This series continues with Locus at 25 Years: Locus Platform, Multitenant Architecture, the Secret of our Success.