InfoMaster’s Advanced Report and Report Designer options create a powerful tool for users wanting to convey specific InfoMaster results. These tools allow total customization for how an analysis can be displayed, as well as allowing users to perform other analysis outside of InfoMaster’s traditional toolkit! Custom functions and calculations can be created within these reports and applied to any InfoMaster data tables. For example, pump efficiencies and costs may exist only in tables right now, with custom reports, a user could create an equation that evaluates which pumps are candidates to be replaced based Return-on-investment and Life-Cycle costs (just as an example) and then produce a report that lays it all out. Users can create pivot tables, charts, add pictures, flowcharts, etc. from their InfoMaster model and save it as a custom template for future use or even share these templates within their organization or other InfoMaster users. These custom report templates are file-based and thus they are shareable!
With nearly unlimited customization, however, comes an added layer of complexity. To assist our clients wanting to harness this powerful tool, InfoMaster comes preloaded with a Custom Report template library (which continues to grow) and additionally Innovyze is happy to provide the attached user guide specifically for customizing Advanced Reports. Please use the link below to download.
Advanded Report_Report Designer User Guide
Recently I had the fortunate experience of visiting the Japan Sewage Works Exhibition ’17 at the Big Sight, Tokyo with our Japanese distributors, Emori Infotec (https://www.i-emori.co.jp/product/), to meet our Japanese customers and learn how they are using Innovyze software such as InfoWorks ICM and ICMLive in Japan.
The exhibition was a fantastic opportunity to meet our customers who are using ICMLive. I had the opportunity to meet MetaWater (http://www.metawater.co.jp/eng/) who have been undertaking pilot studies as part of the Breakthrough by Dynamic Approach in Sewage High (B-DASH) Technology project (http://www.nilim.go.jp/lab/ecg/english/b_dash.htm) to use ICMLive to provide a monitoring system, forecast sewer water levels, to support flood preparation and improved operation of the sewer system.
The pilot project was carried out in Fukui, the capital city of Fukui prefecture on the west coast of Japan, with a population of approximately 265,000. Fukui has a warm and temperate climate with on average 2400mm of rainfall per year. The rainfall events appear to come from nowhere (‘guerrilla’ rainfall) with very short, intense rainfall.
High Resolution Rainfall Radar data for the study area was collected via Furuno Radar and automatically harvested and imported into ICMLive. The observed radar has a spatial resolution of 50m and a temporal resolution of 1 minute. Forecasted rainfall had a spatial resolution of 250m and a temporal resolution of 5 minutes. The rainfall radar data is also output to a website as in Figure 1.
Figure 1: Public Website for the pilot study (created by MetaWater) showing the forecast rainfall radar data for Fukui, Japan.
Dashboards allows users to display their data graphically, thus drawing out and displaying it as useful information. Dashboards in InfoNet display simple graphics (called ‘widgets’) like a numerical, a pie chart, graph or simple table. Note that it is SQLs that are used in Dashboards to supply the widgets with the data.
As an example for this blog, I’m going to outline how to create an example dashboard, built around Customer Complaints and some Customer Complaint statistics that I think may be of interest. Note that a dashboard can display widgets about any InfoNet object or set of objects on the one dashboard. I am simply choosing, keeping things simple, to build a dashboard with widgets built around just Customer Complaints.
First of all I’ll create the filing structure i.e., Asset Groups in which to create my dashboard and the required SQLs.
Asset Groups and Files
A question we often get asked is does the presence of panel markers in a river reach section matter? Does it affect results? The answer to both is yes, particularly in the case of extended river sections to represent out-of-bank flow.
With a river reach section, a conveyance profile is generated based on the cross-section area and wetted perimeter of each vertex within the river section as shown by the equation below:-
Figure 1: Conveyance Calculation
Where K is the conveyance, A the area, n the Mannings’ n roughness value and P the wetted perimeter. This conveyance term is then used in the St Venant equations which determine the flows and depths within the river sections. Continue reading
Over the years there has been one question from my InfoNet clients that has consistently popped up; “How do I import an InfoWorks ICM Model into InfoNet?”. I must have been asked this a squillion times, and the answer has always been the same.
“Since models don’t necessarily reflect what is in the ground, through model thinning, simplification or optioneering, InfoNet does not provide an importer, InfoNet is about data certainty and confidence.”
Because of the many import/export options available in both InfoWorks ICM and InfoNet there has always been the tedious and very long winded method of exporting data from InfoWorks ICM and then importing this into InfoNet. This meant exporting data to separate tables (CSV, TAB SHP etc.) from InfoWorks ICM and then importing these individually into InfoNet via the Open Data Import Centre (ODIC). That is creating a configuration for each table and then going through the myriad clicks in InfoNet ODIC to import one table at a time, which on top of the tedium, this manual method is also open to error.
So from all this demand (aiming to keep you all happy and avoid you tedium) as well as there now being a method to automate processes in InfoNet and InfoWorks (Ruby Scripting within the Innovyze Workgroup Client) I have devised/scripted a method that will first export from an InfoWorks ICM Model into an InfoNet Collection Network. Continue reading
InfoWater contains two ways users can apply controls to different model features: Simple controls and Rule-Based controls. Simple controls can be accessed within the Model Explorer after selecting a pipe, valve, or pump. These controls can be used to change the status for pumps, valves, and pipes based on changes in time, pressure/head at nodes, pipe flows, etc. For most models, these simple controls are flexible enough to satisfy rules the user wants input into the simulation.
However, if more customization is needed, users can access Rule-Based controls (InfoWater > Edit > Rule-Based Control…). These controls can include If-Then-Else statements based on a wide range of system parameters and can be prioritized as well. Note also that if the user wants to user these Rule-Based controls within a simulation, they must check the ‘Enable Rule Control’ option in the Simulation Options window. Continue reading
Posted in InfoWater
As you work in InfoWorks ICM, you may notice that you are running out of space on your hard drive. This can happen when you work in ICM often and make loads of changes to your model without cleaning out the working folder, but is mostly due to unused and temporary results files. This blog post will cover how to clean up both working and results files.
To clean out local working files (this also applies to InfoNet):
- Open a master database in InfoWorks ICM
- Commit your changes to all networks and close them in the GeoPlan (it’s OK to leave some uncommitted changes, but the files associated with those networks will not be cleaned out).
- Go to Tools>Options>Local Folders.
- Make sure that the Working Folder is selected from the dropdown as shown below.
- Click on the ‘Clean unused files from the folder for this database’ button to clean out the Working Folder.
6. Repeat steps 1-5 for each master database.
To clean out the local results folder: Continue reading
The release of InfoWorks ICM version 8.0 has seen a couple of additional features added to the Ground Infiltration module to improve efficiencies and assist with calibration to observed data. These are:-
- New constant evapotranspiration loss type,
- New evapotranspiration depth at which evapotranspiration losses from the soil store cease,
- Monthly evapotranspiration factors,
- Option whereby the ground infiltration depends on the surcharge state in the pipe,
- Ability to apply a ground infiltration event profiles to multiple subcatchments.
The document at the below link describes in more detail how each of these new options work
The Ground Infiltration Module
There is nothing particularly special that you need to do to deploy InfoWorks ICM on a Virtual Machine or on a Cloud platform, such as Amazon Web Services (AWS), Microsoft Azure or Google Cloud. It’s really no different to installing the software on a new physical machine. InfoWorks ICM is capable of running on any (Windows based) host, whether that be a powerful physical workstation, a virtualised Application Server located at a data centre or Cloud based Products/Services from the likes of Amazon, Microsoft, Google and others. The software will be installed in the usual way and then pointed to the location of the Workgroup database and Licence Server. In the case of a full-scale deployment on a Cloud Platform, the Workgroup Database and Shared Results Store would also be hosted on the same virtual platform in order to keep data transfer times to a minimum.
Some organisations have looked at installing just the ICM Remote Agent (Simulation Engine) on a Virtual Host and running the ICM User Interface locally. This is also fine. As long as the chosen machine/platform has network access to the InfoWorks Licence Server to acquire a licence at start up, and any firewall rules allow data/results transfer to/from the host, the simulation will run as instructed on the Virtual Machine (VM).
If you can run InfoWorks Simulations on a virtualised Application Server located at a data centre, why, you might ask, doesn’t everyone run their massive simulations on Cloud Products where the ‘hardware’ can be scaled to meet demand? Well, it comes down to the connection speed/capacity between your office (where the core InfoWorks ICM application is typically running locally on desktop hardware) and the Cloud Server where the Remote Simulation is running. If the ICM model is so big that it needs to run on an off-site Cloud Processor to get competitive runtimes, then the results will likely be absolutely huge. And that’s the problem. Any time you save by running in the Cloud is lost again waiting for the results to come back to the office for analysis within the core ICM User Interface. Also, depending on your client, there may be issues with data security, as models will be pushed to unknown servers in unpublished locations for Simulation. We’ve found that Water Companies and Government bodies are particularly sensitive to this issue. Continue reading
The 2016 Innovyze Water Modelling User Group took place on the 25th November in Melbourne Australia.
About 30 delegates from around Australia and New Zealand attended to share knowledge through various case studies, new features and tips and tricks in the software.
Innovyze wishes to thank all those who were involved in the conference and look forward to future user group sessions.
Click on an image or text below to download a PDF version of each presentation. Continue reading