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IN-Motion is a Motion and Dynamic Simulation Addin for Autodesk Inventor. Autodesk has certified IN-Motion as a compatible addin for Inventor 2009 and 2010 versions. In this tutorial, I shall explain in brief What is Dynamic Simulation using a simple example of 2 bodies. gravityText.iam has two parts namely housing (grounded part) and bob (pendulum). We define a Mate constraint between the cylindrical sufraces of these two parts. The mate created has 2 degrees of freedom (DOF). One is relative rotation between the two parts about their common axis and relative translation about their common axis. In Kinematics, this constraint is referred to as a Cylindrical joint / pair. Now that we have our assembly ready, we go to “IN-Motion” by clicking on “Environments” ribbon tab and then “IN-Motion” as shown in the figure below. (Inventor 2009, go to Applications >> IN-Motion )

IN-Motion loads up and converts all the Inventor constraints into corresponding Kinematic joints or pairs. In this case, Mate:1 constraint is converted to a cylindrical joint. We then define the “Gravity” acting on the assembly. From the IN-Motion tab, click on “Define Gravity” and enter the value of Gravity in Y direction = “-10″ m/s^2. This will make the gravity act in the downward direction with respect to the below figure.

Now, we will look briefly at what we mean by Dynamic Simulation. We can draw “free body diagram” (FBD) of pendulum bob and derive the equations of motion for it. Since only gravity is acting on it., the forces acting on it is shown in the figure below. “F” corresponds to the resultant force acting on pendulum bob. “Fr” is the reaction force between the cylindrical surfaces of both the parts and “Fj” is force acting along the axis of the joint (joint force). Their values are calculated as shown in the figure below.

Click on the “Simulation Player” button in the top panel. A dialog / form appears. Change the end-time to 0.2 seconds and click on simulate button. IN-Motion now performs mathematical analysis and shows the messages as shown in the figure below. Click on the “Playback Deck” button and you can play the animation and notice that at the end of simulation, the bob comes down due to the action of gravity, which is evident from the equations of motion.

Now, we can determine the value of reaction force by performing Dynamic Simulation using IN-Motion. Right click on Mate:1(Cylindrical) and goto “Force /Torque Graph” context menu item. A graph plot appears and upon selecting “Force” and “Magintude”, the following graph appears.

You can observe that the numerical value of Force(N) v/s Time(s) almost remains constaint (but for minor variations due to numerical methods of computation). The value can be approximated to 4.678 N and we had got same value Fr from our Mathematical Calculation (Equations of Motion).

Now, we can define the Joint Force. Right click on Mate:1(Cylindrical) node and select “Define Force”. A dialog/ form appears.

Enter the value as “-4.0″ N and simulate the assembly. You would observe that the pendulum still moves down, but the resultant force acting on it has been reduced and hence its displacement at the end of simualtion is less than that under free fall. We can also test the simulation for Force = “-5.0″ N. This time, the pendulum moves upwards slowly. Lets do a final check by putting the value of Force = “-4.678″ N.

If you simulate the assembly now, the pendulum bob does not move at all. This is the force thats same as Fj and hence it balances the force due to gravity and hence the pendulum is in Equilibrium.

This is how IN-Motion can be used to determine characteristics of Multi body systems and then we can define appropriate forces/torques or motion to see its affect on the system.

I had recorded a screencast of the above tutorial and its embedded below. For a high clarity video, check out AR-CAD website.

Hope to bring more such tutorials in future. For some people in Dynamic Simulation domain, tutorials of this kind may be very trivial, but majority of beginners could find simple tutorials like these useful. Please comment back if there is any confusion or suggestions.

Regards,

Rajeev Lochan

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This post is for all Autodesk Inventor Users. How many times have you felt the need to take a screenshot of your Inventor file (assembly, part, drawing etc) and send it across to people who do not have Inventor or even upload the image online. You would have to follow one of the following two options

Option A: File > Save As> Save Copy As> and then select .jpg or .png as extension and save the file.

Option B: Use “Print Screen” key on your keyboard, go to MS Paint or other image editing software, paste the copied image and then save it.

At AR-CAD, we have developed a simple addin for Autodesk Inventor which lets you take screenshot or capture the current view of Inventor and save it as a jpg / png / gif or bmp image. And the best part about this addin is that its for FREE !!!. The addin developed is pretty simple and we just wanted to help Inventor users. We have developed the addin using Visual C#. Below images show an overview of IN-Screenshot usage in Inventor 2009 and Inventor 2010 (which has a Ribbon User Interface). To know more details and download IN-Screenshot addin, check out AR-CAD website.

It presently works on Inventor 2009 and 2010 versions and should also be able work on 2011, when it would be released. We have tested it to work on both 32 and 64 bit OS of Windows XP, Windows Vista and Windows 7.

You are free to try the addin and let us know your valuable feedback.

Disclaimer: Some days ago, I had come across a blog post pointing to ADN Addin of the month being awarded to a similar Inventor addin which saves the active view as an image. I had developed IN-Screenshot atleast an year ago and have no link with the other addin.

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We have released IN-Motion for Autodesk Inventor 2010. IN-Motion is an affordable Motion and Dynamic Simulator for Autodesk Inventor. We had launched IN-Motion for 2009 version of Inventor earlier this year. Autodesk has certified IN-Motion to work with Inventor 2009 and 2010. We are also developing for 2011 version and would be available soon after Autodesk launches its product line for 2011 versions. For a detailed info on IN-Motion, check out IN-Motion 2009 blog entry. Download IN-Motion with 30 days free trial and once you are satisfied with it, you can buy a license for lifetime at just US$ 200.

A screenshot of IN-Motion running on Autodesk Inventor 2010 is below.

Please keep checking this blog for more updates and tutorials on IN-Motion and also Dynamic Simulation using Autodesk Inventor. If you have any query, please email to the following

Aik-Siong Koh (askoh@askoh.com) and Rajeev Lochan (rajeev@ar-cad.com)

Happy IN-Motioning

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Yes !! Finally we made it. After the extensive development of IN-Motion, we have launched it for Autodesk Inventor 2009. View Full Press Release. Download IN-Motion with 30 free trials

IN-Motion is an inexpensive Motion and Dynamic Simulation Addin for Autodesk Inventor. It has been certified by Autodesk to work with Autodesk Inventor 2009 version. We are in the process of developing IN-Motion for Autodesk Inventor 2010 and it should be released soon.

Check out the video below to get an overview of IN-Motion.

The Main Features of IN-Motion are:

• Automatically converts all Autodesk Inventor Constraints to corresponding Mechanical Joints
• Define Rotation & Translation
• Define Force and Torque at Joints
• Define Spring and Damper
• Define Gravity for the Assembly
• Perform Motion and Dynamic Simulation
• Record the Simulation as an .AVI file
• View Kinematic and Dynamic Analysis Graph Plots and Export the Plot Data as .CSV
• Trace parts during Simulation

IN-Motion is packed with all the above mentioned features and is available for download with 30 free trials. Once you are satisfied with our Addin, you can buy a lifetime license for just US$ 200.

If you are an Autodesk Inventor user and wanted to learn Dynamic Simulation, we have free online video tutorials at http://www.ar-cad.com/in-motion/tutorials/index.html

Please keep checking this blog for more updates and tutorials on IN-Motion and also Dynamic Simulation using Autodesk Inventor. If you have any query, please email to the following

Aik-Siong Koh (askoh@askoh.com) and Rajeev Lochan (rajeev@ar-cad.com)

Happy IN-Motioning

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What a great year 2009 was to me. I thoroughly enjoyed the roller-coaster ride.

• It started off with development of IN-Motion (Motion and Dynamic Simulation Addin for Autodesk Inventor)
• Shifted from Bangalore to Delhi. Joined Indian Institute of Technology Delhi, New Delhi as a Project Scientist.
• Got married to my college sweetheart in June.
• Appeared for MS(Research) interview at IITD and got through it :). M.S program started from July end.
• Finished off first sem of MS with CGPA 8.0/10
• Launched IN-Motion 2009 for Autodesk Inventor 2009
• Working on launch of IN-Motion 2010.

I hope 2010 will remain equally good if not more

Wish you all a Very Happy New Year !!!

Play Safe

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In continuation of my earlier post on ZedGraph example which plots a sinosoidal graph, I have extended it further to:

Add a new custom menu item in context menu(which appears on right click on the graph)

Export Graph plot data to CSV (coma separated values) file. Which can be opened by spreadsheets such as Microsoft Excel and Open Office calc.

For the custom context menu, the code has been derived from ZedGraph Wikipage. The following is the code of the Windows Form which has the ZedGraph control.

using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Data;
using System.Drawing;
using System.Text;
using System.Windows.Forms;
using ZedGraph;
using System.IO;

namespace ZedGraphTest
{
public partial class Form1 : Form
{
private PointPairList m_pointPairList;
//CSV Writer
private StreamWriter m_CSVWriter;

public Form1()
{
InitializeComponent();
CreateGraph();
SetSize();

//csv
zedGraphControl.ContextMenuBuilder +=
new ZedGraphControl.ContextMenuBuilderEventHandler(MyContextMenuBuilder);
}

private void CreateGraph()
{
GraphPane myPane = zedGraphControl.GraphPane;

// Set the titles and axis labels
myPane.Title.Text = "ZedGraph Test";
myPane.XAxis.Title.Text = "theta (angle)";
myPane.YAxis.Title.Text = "Sin (theta)";

// Make up some data points from the Sine function
m_pointPairList = new PointPairList();
for (double x = 0; x <= 360; x += 10)
{
double y = Math.Sin(x * Math.PI / 180.0);

m_pointPairList.Add(x, y);
}
// Generate a blue curve with Plus symbols,
LineItem _myCurve1 = myPane.AddCurve("Sin (theta)",
m_pointPairList, Color.Blue, SymbolType.Plus);

// Fill the pane background with a color gradient
myPane.Fill = new Fill(Color.White, Color.FromArgb(220, 220, 255), 45F);

//Make the MajorGrids of Axes visible
myPane.XAxis.MajorGrid.IsVisible = true;
myPane.YAxis.MajorGrid.IsVisible = true;

// Calculate the Axis Scale Ranges
zedGraphControl.AxisChange();
}

private void Form1_Resize(object sender, EventArgs e)
{
SetSize();
}

private void SetSize()
{
zedGraphControl.Location = new Point(10, 10);
// Leave a small margin around the outside of the control
zedGraphControl.Size = new Size(this.ClientRectangle.Width - 20,
this.ClientRectangle.Height - 20);
}

private void MyContextMenuBuilder(ZedGraphControl control,
ContextMenuStrip menuStrip, Point mousePt,
ZedGraphControl.ContextMenuObjectState objState)
{
// create a new menu item
ToolStripMenuItem _item = new ToolStripMenuItem();
// This is the user-defined Tag so you can find this menu item later if necessary
_item.Name = "Export Data as CSV";
_item.Tag = "export_data_csv";
// This is the text that will show up in the menu
_item.Text = "Export Data as CSV";
// Add a handler that will respond when that menu item is selected
_item.Click += new System.EventHandler(ShowSaveAsForExportCSV);
// Add the menu item to the menu,as 3rd Item
menuStrip.Items.Insert(2, _item);
}

private void ShowSaveAsForExportCSV(object sender, System.EventArgs e)
{
try
{
//show saveAs CmdDlg
saveFileDialog1.Filter = "CSV files (*.csv)|*.csv";
saveFileDialog1.ShowDialog();
m_CSVWriter = new StreamWriter(saveFileDialog1.FileName);
WriteCSVToStream();
m_CSVWriter.Close();
MessageBox.Show("CSV File Saved", " ZedGraph ", MessageBoxButtons.OK);
}
catch (Exception ex)
{
m_CSVWriter.Close();
MessageBox.Show(ex.ToString());
}
}

private void WriteCSVToStream()
{
//First line is for Headers., X and Y Axis
string _xAxisHeader = CheckCSVString(zedGraphControl.GraphPane.XAxis.Title.Text);
string _yAxisHeader = CheckCSVString(zedGraphControl.GraphPane.YAxis.Title.Text);
m_CSVWriter.Write(_xAxisHeader + "," + _yAxisHeader + "\n");

//subsequent lines are having data
for (int i = 0; i < m_pointPairList.Count; i++)
{
m_CSVWriter.Write(m_pointPairList[i].X + "," + m_pointPairList[i].Y + "\n");
}
}

private string CheckCSVString(string _string)
{//Check to see if there are any characters that can disturb the CSV delimeters.
string _returnString = _string;
if (_string.IndexOfAny("\",\x0A\x0D".ToCharArray()) > -1)
{
_returnString = "\"" + _string.Replace("\"", "\"\"") + "\"";
}
return _returnString;
}

}
}

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Update : Check out ZedGraph C# Graph Data Export to CSV Using a Custom Context Menu , It has code to make a custom context menu item and also export the graph plot data as CSV.

Zedgraph is a very good opensource C# graph plotting library. Check out more details at my earlier post on Zedgraph. I have gone a step forward and made availabe source code and exe of a sample Zedgraph application which lets you have Line Plot, Bar Graph and Pie Chart.

Download Source Code (Visual Studio 2005 project in C#)

Download EXE

Below are the Screenshots of the Window Application. Copy and paste 2 columns of data from your favorite spreadsheet(eg MS Excel, Open Office Calc etc). NewLine and Tab delimiters are identified and the data is sorted accordingly, and added to graph plots. The Zedgraph plot library is so easy to use, implement and extend that it just took an afternoon to come up with this Windows application, when I was trying to convince my cousin to use ZedGraph in his college project.

ZedGraph is also being used to plot graphs in IN-Motion, a Motion Simulation Addin for Autodesk Inventor which I am co-developing along with my mentor. We are using ZedGraph to plot Postition-Velocity-Acceleration data, and intend to use it further more in Force-Torque graphs etc. Thanks to ZedGraph team for such a wonderful effort

Figure 1: ZedGraph Sample Window Application

Figure 2: The plot data for Line Plot and BarGraph are copied from a spreadsheat (eg MS Excel) and pasted in the text area. The code then uses tab and newLine delimiters to arrange data for plotting.

Figure 3: Line Plot for the above data. Notice the Titles of the X and Y axes.

Figure 4: Bargraph for the above data.

Figure 5: Data for Pie Chart. Paste 2 columns from spreadsheet. You may also use normal textbox to get the data from the user.

Figure 6: Pie Chart for the above data.

Download Source Code (Visual Studio 2005 project in C#)

Download EXE

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Update: IN-Motion, a Motion and Dynamic Simulation Addin for Autodesk Inventor has been launched by us.

Update: Video tutorials on usage of IN-Motion for Dynamic Simulation of Autodesk Inventor Assemblies.

Today, I stumbled upon a website which publishes textbooks, predominantly on CAD. While browsing through it, I figured out that they have a set of free Inventor assemblies, that can be downloaded. They can be found on this page on CADCIM. Scroll Down to section Inventor Files. A set of tutorials in pdf can also be found at the following URLs.

http://www.cadcim.com/Students_Project/basic_projects.htm
http://www.cadcim.com/Students_Project/intermediate.htm
http://www.cadcim.com/Students_Project/advance_projects.htm

Apart from CADCIM, there are other places where you can download Inventor Assembly and Part files for free. Check out

• http://www.cbliss.com/inventor/index.htm
• http://www.inventorparts.com/
• http://www.inventorparts.com/Samples/Default.htm

I shall try to update this blog post whenever I find more resources about free Autodesk Inventor parts or assemblies.

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How to minimize forms that belong to a particular application, when the parent application (In my case Autodesk Inventor) is minimized ? When you create software or addins, you would want the forms/dialogs to be minimized and not floating around when parent application is minimized.

For that we need to deal with hWnd of parent application. “hWnd” stands for Window Handle, which is the API call to the window(parent application). Since we come across this too often in Inventor customization to make addins, I have created a Class and a couple of methods for better clarity. Before I go into details, lets see what are the different types of Forms/Dialogs you would deal while developing Windows based software.

//
//Declare and set..here m_inventorApplication is the application
//MainFrameHWND returns its handle.
//WindowsWrapperForForm is a Class, defined at the bottom
WindowsWrapperForForm m_windowsWrapperForForm = new
WindowsWrapperForForm((IntPtr)m_inventorApplication.MainFrameHWND);

//Declare and set a form .. ModalCmdDlg is our modal form
ModalCmdDlg m_modalCmdDlg = new ModalCmdDlg();

//Declare and set a form .. ModelessCmdDlg is our modeless form
ModelessCmdDlg m_modelessCmdDlg = new ModelessCmdDlg();

//Show Modal form
ShowModalForm(m_modalCmdDlg);

//Show Modeless form
ShowModelessForm(m_modelessCmdDlg);

//Methods
private void ShowModalForm(Form _modalCmdDlg)
{
_modalCmdDlg.Activate();
_modalCmdDlg.ShowInTaskbar = false;
//ShowDialog is used..for Modal forms
_modalCmdDlg.ShowDialog(m_windowsWrapperForForm);
}

private void ShowModelessForm(Form _modelessCmdDlg)
{
_modelessCmdDlg.Activate();
_modelessCmdDlg.ShowInTaskbar = false;
//Show is used..for Modeless forms
_modelessCmdDlg.Show(m_windowsWrapperForForm);
}

//Below is the code for Class WindowsWrapperForForm
//****************Class***************

class WindowsWrapperForForm : System.Windows.Forms.IWin32Window

{
private IntPtr m_hwnd;
public WindowsWrapperForForm(IntPtr handle)
{
m_hwnd = handle;
}
#region IWin32Window Members
public IntPtr Handle
{
get { return m_hwnd; }
}
#endregion
}
//****************EndClass*******************

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Update: Check out Zedgraph C# Graph Plot Example Application , I have an example ZedGraph Application (with sourcecode) to draw Line Plot, Bar Graph and Pie Chart.

Update 2: Check out ZedGraph C# Graph Data Export to CSV Using a Custom Context Menu , It has code to make a custom context menu item and also export the graph plot data as CSV.

I was searching for an opensource(hence free) Graph plotting library in C# (or VB.NET), so that it could be used in our IN-Motion addin for Autodesk Inventor. After some googling, I found 2 suitable open source libraries namely ZedGraph and NPlot. When both websites(read wiki) were compared, I found ZedGraph recently updated and also had great documentation to take off immediately. I readily downloaded the latest version of ZedGraph dll from its SourceForge project and followed the instructions on ZedGraph wiki.

Within no time, I was ready with ZedGraphTest example, whose screenshot is above. It is so simple that, without even exploring, I could accomplish basic graph plotting. Some of the plus points I see in ZedGraph are:

• Not much tweaking of source-code is required for basic tasks.
• All the plot elements (line, curve, panel, axes, plot-markers etc) can be set different colors. Even gradients can be set to have crazy as well as good looking Graphs
• Different types of graphs (line,bar,pie etc) are possible with ease.
• Using left click on the plot panel, the graph can be zoomed
• Middle button can be used to pan the plot
• Upon right click over the plot, a context menu appears which, out of the box has a lot of useful features such as saving the image, toggle the on-hover highligthing etc

private void CreateGraph(ZedGraphControl zgc)
{
GraphPane myPane = zgc.GraphPane;

// Set the titles and axis labels
myPane.Title.Text = "ZedGraph Test";
myPane.XAxis.Title.Text = "theta (angle)";
myPane.YAxis.Title.Text = "Sin (theta)";

// Make up some data points from the Sine function
PointPairList _list1 = new PointPairList();
for (double x = 0; x <= 360; x += 10)
{
double y = Math.Sin(x * Math.PI / 180.0);
_list1.Add(x, y);
}
// Generate a blue curve with Plus symbols,
LineItem _myCurve1 =
myPane.AddCurve("Sin (theta)", _list1, Color.Blue,SymbolType.Plus);

// Fill the pane background with a color gradient
myPane.Fill = new Fill(Color.White, Color.FromArgb(220, 220, 255), 45F);

//Make the MajorGrids of Axes visible
myPane.XAxis.MajorGrid.IsVisible = true;
myPane.YAxis.MajorGrid.IsVisible = true;

// Calculate the Axis Scale Ranges
zgc.AxisChange();
}

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Update: IN-Motion, a Motion and Dynamic Simulation Addin for Autodesk Inventor has been launched by us.

Update: Video tutorials on usage of IN-Motion for Dynamic Simulation of Autodesk Inventor Assemblies.

Check out the free screencast on Autodesk Inventor, titled “Adding 3D with Autodesk Inventor” by Lynn Allen, Autodesk Technical Evangelist. She explains how Inventor is the best choice for AutoCAD users, which definitely helps AutoCAD users to make a transition to Inventor. I am pretty much impressed with the screencast as I could learn a lot from it. Though the Inventor version using which this screencast was created is old (compared to Inventor 2008 I am using), the knowledge transfer was pretty much effective. After watching this video, I could learn a lot of functionalities and features that Inventor has and most often which are under-used. Thanks Lynn for such a wonderful screencast.

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Update: IN-Motion, a Motion and Dynamic Simulation Addin for Autodesk Inventor has been launched by us.

Update: Video tutorials on usage of IN-Motion for Dynamic Simulation of Autodesk Inventor Assemblies.

For the past few months, along with my mentor (Aik-Siong Koh), I have been busy developing Motion Simulation addin for Autodesk Inventor. We have named it IN-Motion. Once we are done with the development, it would be available for Autodesk Inventor users, in the form of an addin. Upon installing IN-Motion, they will be able to simulate an assembly both kinematically and dynamically. The following screencasts show the progress we have achieved so far in this regard and very soon we will be launching IN-Motion.

1) Basic tutorial on getting started with IN-Motion. We start with a blank Inventor assembly and place components and apply constraint. Then we start IN-Motion, set rotation to a Insert Constraint (Revolute Joint) and then simulate the mechanism/assembly. Watch high resolution video at AR-CAD.

2) Tutorial on simulating a four-bar mechanism. This assembly has 2 grounded parts and 3 movable parts, with 4 Insert Constraints. IN-Motion allows us to give rotation to one of the Insert Constraints and then the simulation can be made to see the behavior of the imposed motion. Watch high resolution video at AR-CAD.

3) Tutorial on simulating an Elliptical Trammel. This assembly has 4 components. IN-Motion deals with Planar and Insert Constraints in this case and the simulation takes place for an imposed Rotation on one of the insert constraints. Watch high resolution video at AR-CAD.

4) Tutorial on simulating an Engine. We start with the engine assembly that gets shipped along with Autodesk Inventor. Right now, we are not dealing with the sub-assembly(Piston.iam) parts and constraints. We are considering the sub-assembly as a block/part. Upon user feedback, we may actually extend upon the sub-assembly parts. This is mainly because, a lot of processing takes place in our Motion Solver and the sub-assembly parts(if non-trivial) add up to the CPU load. Watch high resolution video at AR-CAD.

5) Tutorial on Dynamic Simulation of a pendulum in Autodesk Inventor, using IN-Motion. We take the pendulum from Tutorial 1 and instead of giving a rotation, we set the value of Gravitational force for the assembly. IN-Motion then passes the gravity to our Motion solver and the dynamic simulation of the assembly takes place. This example is the simplest form of dynamic simulation and complex assemblies can also be simulated for dynamics. We are working on getting velocity, acceleration and force data at any point in the assembly, in the form of a graph. Watch high resolution video at AR-CAD.

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Update: IN-Motion, a Motion and Dynamic Simulation Addin for Autodesk Inventor has been launched by us.

Update: Video tutorials on usage of IN-Motion for Dynamic Simulation of Autodesk Inventor Assemblies.

Its been quite a long time since I last blogged. Some of the updates at my end

I have become an Autodesk Developer Network (ADN) member.

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Update: IN-Motion, a Motion and Dynamic Simulation Addin for Autodesk Inventor has been launched by us.

Update: Video tutorials on usage of IN-Motion for Dynamic Simulation of Autodesk Inventor Assemblies.

Autodesk Live was held at Bangalore on September 25th, 2008 at one of the best locations in Bangalore viz Leela Palace. It was mainly concentrated on Autodesk MSD(Mechanical System Design) products. It was my first CAD related conference and I was really excited to be a part of it. The registration for the event had started quite some time back at Autodesk SAARC website and when I googled for any info on what takes place at Autodesk Live, not much info was found about Indian context. So that added to my excitement.

To my surprise, I found close to 300 people who turned out as audience and around 10 guys from Autodesk had assembled to take us through the day’s proceedings. A couple of them had come from Singapore Autodesk SAARC center and others were from Delhi, Pune and also from Bangalore centers. Most of the audience assembled were end users of AutoCAD and some were also from automotive background who had just shifted from AutoCAD to Inventor for better 3D experience and productivity.

The session was started by Mr. Ajay Adwani, who heads MSD, Autodesk SAARC. He gave a key-note presentation about Autodesk in general and how it supports Designers to have an edge on Innovation front to drive the community further. He gave a nice example of how Mr. Ratan Tata envisioned a need for a low-cost car for common people and thus coming up with Nano. Not to wonder why Tata is the largest customer for Autodesk in India. It was also nice to know that Autodesk is the 2nd Software company to exist after Microsoft. He also threw some light on economic growth and stability of the company. It was more of a sales pitch with a message ” Guys, we are the company which has survived from past 26+ years. Everyone trusts us and know that we would always remain in the CAD field”. I am sure people were impressed with it.

The following session was from Mr. Sanjay Gera, who sits at Delhi center and looks after Sales in India. He briefly explained what Digital Prototyping was about and how it had helped companies to achieve better success and productivity. He also showed how 4 islands(depts viz Ideation, Engineering, Manufacturing, Customer) for a Product Manufacture can be seamlessly connected cutting down the cost and reducing the production time.

Then we had Customer sessions where 2 companies shared their success run by using Autodesk products. The first was BEML (Bharat Earth Movers Ltd) which uses Inventor to prototype their heavy machinery before finalizing the design and thus reducing costs enormously. The second company was Sartorious Stedim India Pvt Ltd, which does a lot of work in Biotech and Mechatronics. They have used Inventor to design their boilers, fermenters etc. They also showed how they had used Autodesk Navis Works, which is a great reviewing software, using which you can literally walk over your Assembly in Inventor.

The next session was about Autodesk Subscription by Mr. Ramesh Vedavyaasa and explained about various advantages of having an Autodesk Subscription. It would cost in the beginning, but people could really save the bucks in future, when the go for updates and upgrades. The following were the advantages explained:

1. Tech Updrades
2. Flexible Payment / Subscription system
3. Direct web support
4. Communication Center in 2009 products range and later integrated
5. E-learning
6. Usage of previous version (upto 3 last versions)
7. Community Access
8. Simplified Software Management

The following session was also taken by Mr. Ramesh Vedavyaasa which was “Building the Next Gen Designers”. He discussed about the challenges faced by CAD using industry viz Skilled Manpower, Rapid changes in Technology and Lack of revenue for Research purposes and how Autodesk has been trying to solve this problem by having a lot of training institutes to teach Autodesk technologies to college students and graduates and also by forming strategic alliances with some of the Universities to groom the talent there. Some of these in India are NID, Ahmedabad, IIT Kanpur, IIT Madras, JJ College, School of Planning and Architecture.

We then had Lunch and could meet a couple of Autodesk guys and also Mr. Thomas of Microgenesis, Bangalore. In the morning, I had also met Sunith Babu of AUGI fame and helped him in distributing AUGI World Magazine to all the attendees.

Post lunch session was the most interesting of the day. Thanks to Mr. Prasad Pandit and his sense of humor. He made sure that nobody would feel drowzy after a heartious meal. He explained ” Whats new in AutoCAD 2009 ?”. Some of the things worth mentioning are

1. Ribbon Toolbar
2. View CUbe
3. Action Recorder
4. Layer Properties Managers
5. Fit and Finish
6. Hover on an object to get its details as tooltip
7. Tooltip/brief explaination on hovering on command buttons
8. Mark Geographic location and integration with Google Earth with AutoCAD

The next session was “Digital Prototyping”. It was more of a combined session by Mr. Anand Joshi (Alias guy), Mr. Kiran (Inventor guy) and Mr. Ramana (AutoCAD Electrical guy). They showed us how they had solved an industry problem using Digital Prototyping. The problem definition stated them to Design a Floor Polisher for a client with some definite conditions. It began by Anand (looks like George Clooney) showed us how Alias looks like and used his tablet pen to come up with a concept design and then went on to show how they could generate curves and then surfaces and then make a 3D object with surface data in it. He then parsed on the finished data (Class A) to Kiran who then would add thickness to the members according to the Design standards. He explained how Design Accelartor could be used as a ready to use Design Data Book, which has a huge library of design data and also calculate various parameters while designing machine members, and also check whether a particular design is feasible or not. He also showed how AutoLimits could be used to check whether a condition was valid when Kinematic simulation of the Cleaning assembly was taking place. Once mechanical stuffs are done, some Electrical wiring and connections need to be done between the motors and their power sources. So Kiran then parsed the Electrical related data in the form of XML which Mr. Ramana could import in AutoCAD Electrical. He briefly explained the working of it and how we could connect different ports/connectors and simulate the electrical way to check if it works as expected. After connecting the harnesses properly, he gave back the data file to Kiran, who then makes some final modeling to finish of the Assembly.
Anand (Alias guy) then showed us the completed assembly and I must say, I almost fell off my chair. It was really awesome, it looked very real and hats off to Alias rendering engine. It was a great learning session.

Followed was Q & A session with some lucky dip prizes. People came up with good questions and some sounded very trivial to me. Just after the session, I was keen to meet Autodesk guys and in particular anyone who works with Inventor API. I was lucky to meet Mr. Anand Pujari who looks after Inventor addins certification. Had a sound and healthy discussion with him on Inventor customization and got some good inputs from him as well.

In a nutsheel, it was a great day at Autodesk Live and I would definitely be more than willing to attend future sessions as well. Though most of the audience were totally different from what I do or intend to do, I could meet up with some Autodesk folks who did help me out with some queries I had. Looking forward to make a good name in the field of CAD Development and Customization.

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