-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
Looking for additional real-world examples from earlier version of Mathematica (say, versions 1 and 2, if they existed). Also wondering about the resource cost in performing an identification on a sig…
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …
-
```
What steps will reproduce the problem?
Robotics, Vision and Control (corrected second printing), Peter Corke - page
#22 MATLAB example:
>> T1 = se2(1,2,30*pi/180)
T1 =
0.8660 -0.5000 …