The Expectations from 3.0

Dec 14, 2021 • FeaturesWhite PaperOverITCovid-19Servitization and Advanced Services

In the second feature from a white paper we recently published in partnership with OverIT, we take a look at what tools are included in the new FSM solutions and how they have evolved from the previous iteration of FSM software that we are currently using.


OverIT WP November 2021

This feature is just one short excerpt from a recent white paper we published in partnership with OverIT.

www.fieldservicenews.com subscribers can read the full white paper now by hitting the button below.

If you are yet to subscribe you can do so for free by hitting the button and registering for our complimentary subscription tier FSN Standard on a dedicated page that provides you instant access to this white paper PLUS you will also be able to access our monthly selection of premium resources as soo as you are registered.

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Data usage note: By accessing this content you consent to the contact details submitted when you registered as a subscriber to fieldservicenews.com to be shared withOverIT, sponsor of this premium content, who may contact you for legitimate business reasons to discuss the content of this white paper, as per the terms and conditions of your subscription agreement which you opted into in line with GDPR regulations and is an ongoing condition of subscription.


Having laid out the case that we are now entering a new era of field service, one which will fully harness the technologies and tools embedded within next-generation FSM solutions, let us now take a look at what tools are included in such systems and how they have evolved from the previous iteration of FSM software that is currently in place.

DATA INTEGRATION

Field service has always been a complex beast with many moving parts. However, modern field service in some respects is more complicated than ever due to the various systems of record (SOR) that may be in place. In previous iterations of FSM solutions, all too often, field service operations remained in a silo. Today, however, the benefit and value of widely available data flow across multiple business units are becoming increasingly acknowledged.

Therefore, there must be the potential to import and export data from one system to another within any modern FSM solution. Whether feeding into a CRM for sales, an ERP for resource planning, or even into a SOR that sits across production and R&D to drive forward product improvements, easy integration across non-service focused systems is critical.

GIS CAPABILITIES / INTEGRATION

Geographic Information Systems (GIS) has become an increasingly important part of many field service organizations workflows. However, while incredibly valuable, GIS data may come from multiple data sources, potentially stored in different SORs.

In the fast-moving world of field service, particularly if we are looking at reactive emergency response scenarios, then the ability to surface data from multiple sources both in the back office and, most notably for the engineer in the field, is crucial.

Although inclusion of GIS capability within next-gen FSM solutions like Geocall is relatively new, this practice is happening more frequently and will likely become the standard. While this may not be relevant for every industry vertical, within specific sectors such as Oil and Gas or Utilities, this could be a real game- changer that we will see emerge in the FSM 3.0.

SCHEDULING OPTIMIZATION

The old mantra of getting the right engineer, with the right skills, to the right job, at the right time will never fade as being the most central tenet of field service management and indeed service delivery as a whole. Across the last decade, we have seen tremendous strides made in scheduling with various approaches such as truly dynamic optimized scheduling and Darwinian algorithm-based scheduling. Such algorithm-based scheduling is paving the way for the increasingly widespread adoption of Robotic Process Automation (RPA) and AI leveraging the support of field service processes.

However, such sophisticated solutions are not always the right choice for each company or even for each type of service a single organization may have within its portfolio. The more sophisticated solutions are fantastic, for example, in dealing with large-scale service workflows, with large teams of field service engineers. They are also exceptionally effective in scenarios where there

may be complex requirements to place the right combination of skills across multiple engineers to meet the needs of the job.

In each of the above scenarios, we could see a different use case. In the first scenario, we could view an optimized scheduling engine as an opportunity to automate much of the dispatch workload, allowing the service organization to place human resources in roles that are more aligned to revenue generation than cost reduction. In such an instance, the human dispatcher adopts the role of supervisor. For example, ensuring the automation process is handling 80% of calls within standard parameters while taking control of the 20% that require a more nuanced approach (in line with the Pareto or 80:20 rule).

In the second scenario, where such a nuanced understanding of a more complex service scenario is required, we may consider assisted scheduling rather than automation.

The flexibility to have both solutions covered within a next-gen FSM solution is essential. However, what differentiates the new breed of FSM solution to many of the older legacy solutions is that scheduling tools, whether fully automated or assisted scheduling, should now always be expected to be dynamic. A dynamic solution can react to real-time data from the field, including engineer updates, traffic information, and customer data. This is a crucial aspect of next- gen solutions and allows for the work schedule to be constantly optimized.

EFFECTIVE REPORTING TOOLS

As we discussed earlier in the paper, the importance of data flowing between your FSM and other SOR has never been more critical. Service operations are now becoming a key driver in multiple core aspects of the broader business operations, and as such, the flow of information across the business must be seamless. Directly aligned to the importance of that data flow moving beyond the traditional silos is the ability for data to be surfaced in an easy yet meaningful way.

Within the context of next-gen FSM solutions, this primarily relates to dashboards that can be customizable for various levels of management allowing them to see the data in the manner they need. Modern-day reporting should give us the tools to simultaneously cut out the background noise of data unnecessary to the job at hand while tapping into the vast data lakes that are the bi-product of modern-day service management and bringing to the fore the data insight that is of use. It is also an expectation of next-gen FSM solutions such as Geocall to utilize different algorithms to translate the data into multiple use cases.

To illustrate this, let us look at an example most field service leaders would be familiar with, capacity planning.

We may have several data sets that we utilize in our capacity planning, say operations metrics that give us mean-time-per-job and technician utilization time. Alongside this, we may have customer job schedule data by volume and location. Then we may also have historical asset data that outlines the complexity of a given task.

In a next-gen FSM solution, we can apply different scheduling models, which allows us to compare and contrast based on various priorities and parameters. In essence, it is a glimpse into the future to see what could work and what may not.

In one scenario, we could run a model based on equity distribution to apportion workload fairly across all resources. Alternatively, we may want to run the same data against a logistic optimization to try to reduce travel and reduce time and reduce cost for the business.

In either scenario, we may want to factor in contingency capacity to accommodate any emergency work that comes in to ensure we have appropriate resources available to offer our customers total service support whenever called upon.

This scenario is just a brief example of the importance of effective reporting tools for service operations. The ability for a service leader to ask, “I want to make a change, what’s the impact?” and to effectively model out the answer to that question is a cornerstone of next-gen FSM.

MOBILE CAPABILITY

As we mentioned earlier in this paper, one of the significant shifts from FSM 1.0 to FSM2.0 was the inclusion of mobile. In the current status quo there is widespread provision of mobile solutions in the iterations of FSM solutions. However, next-gen solutions greatly magnify the complexity of such elements.

It is critical here to note that the complexity should always remain under the bonnet. Ultimately, the more sophisticated the technology on offer is, the more intuitive and seamless the experience should be for the end-user.

With this in mind, the mobile app of 2021 looks very different from those we would see just a few years ago, which were often little more than glorified push notifications showcasing job updates.

A modern FSM embedded mobile app should empower the engineer to capture accurate materials or asset data. It should guide them through structured workflows based on the job at hand while pulling in data from the asset itself.

It should play a pivotal role in ensuring that health and safety standards are met every time by placing clear checklists that technicians must complete before releasing additional information to the engineer. It should allow for a seamless customer interaction process- from having direct access for the engineer to order parts required when on-site, through the automated dispatch of invoices on receipt of an e-signature.

And returning to our concept of making the point of service as seamless as possible, the very best modern systems can do so in a truly dynamic fashion.

In Geocall, for example, the screen presents a truly dynamic experience for the field engineer or technician. The mobile solution understands the type of operation being undertaken and the most appropriate associated forms to capture the required data. Hotlinks are provided to the most relevant information within the knowledge library. The potential to record a solution to a currently unlisted problem allows the service organization to improve their knowledge base continuously.

The longer technicians use this tool, the more powerful it becomes.

And perhaps the most essential element of all, when it comes to identifying modern FSM technology, is that the mobile app links seamlessly to a virtual collaboration tool

VIRTUAL COLLABORATION / AUGMENTED REALITY

In the first section of this paper, we touched on how one of the primary shifts we will see as the dust settles and the new normal of field service begins to crystallize, is the more extensive use and many forms of remote service delivery will continue.

This will take many forms. It may become a tool that technicians use for empowering self-service and self-maintenance for the customer. Workers may utilize it as the first level of support and enhanced triage tool. It may also support engineers in the field should they face an issue new to them requiring guidance from a more experienced colleague.

There are numerous papers dedicated to remote service tools available already on www.fieldservicenews.com, which are essential reading for all service companies seeking to embrace this modern approach to service delivery.

As a result, we won’t dwell on the topic too much here in terms of the benefits and considerations of adopting such a mechanism for service delivery. However, in the context of this paper, suffice to say, remote or virtual service collaboration tools are perhaps one of the most essential ingredients of FSM 3.0.

“Remote Service delivery and asset connectivity, however, are the agents of digital transformation. They do not just allow us to take the same processes and optimize them; they will enable us to rethink processes entirely and redefine service delivery...”

Embedding a remote service tool within an FSM system is currently the hallmark of next-gen systems. Some solutions have embedded remote service capability such as SPACE1 solution, whereas others will utilise 3rd party solutions and are reliant upon API based integration, increasing complexity and overhead.

Such a solution allows the service provider to have an experienced pair of eyes on-site almost instantaneously. It allows the service organization to access a site environment to either triage the information or resolve the problem remotely.

In more sophisticated tools such as SPACE1, we see the emergence of an intelligence-led knowledge management approach. Improved knowledge management means that a service organization can field the correct information at the right time to the engineer or the customer on-site via the tool. At the same time, the data automatically passes through image recognition technology, so it can automatically tag the correct information to make it more easily found at a later point if needed.

Such tools allow for rich information capture, whether images, videos or audio, while being utilized on-site, so every aspect of the maintenance or repair is catalogued correctly. Cataloging allows it to be fed back into the knowledge base to be used again in the future or even provide supporting documentation for invoicing or warranty disputes.

Additionally, we are seeing the rise in such tools in both training and on- boarding and critically reducing the time it takes to bring an engineer into the team before becoming a productive member of the workforce.

While all of the above tools are key factors in why service organizations should now upgrade or replace legacy systems, remote service tools are very much the poster boy of modern FSM solutions.

Again, the comparison to how Cloud and Mobile dramatically changed the game in FSM 2.0 holds true. Remote service, alongside IoT, are two technologies that will be the hallmark of FSM 3.0 as Cloud and Mobile where previously.

While there are therefore apparent comparisons, there is, however, a distinct difference.

The introduction of Cloud and Mobile, were perhaps the high watermarks of digitalization, allowing us to improve upon the efficiencies of traditional field service management processes.

Remote Service delivery and asset connectivity, however, are the agents of digital transformation. They do not just allow us to take the same processes and optimize them; they will enable us to rethink processes entirely and redefine service delivery in a more optimal way for the customer and the service provider.


OverIT WP November 2021

This feature is just one short excerpt from a recent white paper we published in partnership with OverIT..

www.fieldservicenews.com subscribers can read the full white paper now by hitting the button below.

If you are yet to subscribe you can do so for free by hitting the button and registering for our complimentary subscription tier FSN Standard on a dedicated page that provides you instant access to this white paper PLUS you will also be able to access our monthly selection of premium resources as soo as you are registered.

Subscribe to Access

 


Logo OverIT 2018 RGB - No payoffData usage note: By accessing this content you consent to the contact details submitted when you registered as a subscriber to fieldservicenews.com to be shared with the listed sponsor of this premium content OverIT who may contact you for legitimate business reasons to discuss the content of this white paper, as per the terms and conditions of your subscription agreement which you opted into in line with GDPR regulations and is an ongoing condition of subscription.


 

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