Thank you Cyrill for these uploads! I am a Masters student doing a dissertation only project and your videos are saving me so much time and confusion! Really great.
@@CyrillStachniss thank you so much for making these lectures available to everyone :) you are doing a great service to the scientific and engineering community :)
you are a life saver :) perfectly explained, thank you so much for recording this video, i was thinking there will be no lecture on SLAM but fortunately i found it. Thankyou again.
Feeling the same ! :) I am interested to know where you applied it , i am going to use it on making Autonomous QuadCopter but in my area there is no one who can hlp with it ! Any suggestions regarding how should i start ! Thanx
Thank you so much for the uploads. Feels so good to be getting my attention span back while watching your lectures! Hope I keep coming across and learning from amazing minds like you.
Thanks for this uploads. They are a big help for me to get into the basics of SLAM. I have read most of your papers but with this videos, explain step by step, its much easier to get it. Thank you very much.
Excellent video. Now, when I was studying SLAM using Probabilistic Robotics I was a bit taken aback about the fact that odometry was actually perceived as control. But when one looks close at it, odometry is only reporting what the robot thinks it has done, which is basically what you told it to do (control). It basically just translates your commands into some calculation supposing that internal parameter (such as wheel diameter) are correct.
At 18:00, shouldn't the grey star be below the gold star(the star below the word same). Because in its wrong path the distance of the star from the robot measured by the robot is less than the actual distance so, in estimation of the star's position from the robot's path(the real one through which it should go) should be less. so, it should be nearer.
Sir i have a doubt? in this tutorial you explained us how slam works and mapping but you given everything as LA derivations i have doubt here that how to convert these derivations in to real-time coding in python or in C++ to make practically possible,because i'm still learning and exploring...
I am in 2nd Year of B.Tech course ! Can you suggest prior Mathematical knowledge for completing this course or list of prerequisites . I need to learn SLAM for an upcoming project on Autonomous Quadcopter !
Okay, Sir Cyril what if you don't want wire linings as demarcation. Can the SLAM method still be durable. Or what other methods of mapping and localization helps a lawn mower possibly mower an area effectively.
this is actually amazing, i have a question though, if i were to use model predictive control to minimize navigation errors, how could i approach that ? and how about fault tolerant control, do you have any example of applying it for navigation ? my system is a differential drive, thank you in advance
Perfectly Explained. So i was currently working with dynamic SLAM problem. Could you suggest which sensors can be more effective in dense dynamic environment?
That mint is scary. what if it sends out mappings of your house to dubious people. now they know your house inside and out. it would be a serious IoT issue. nice course btw. Thank you!
Hi Mr. Stachniss! Thanks for this video-lectures! I am new in this area (SLAM). I am trying to implement SLAM in a car robot with a four ultrasonic and a stereo camera. I having difficulties choosing and adapting one of the slam algorithms to this particular case. Could you give some advice about it?
Dear professor Cyrill Stachniss, I am an undergraduate student of China. I am writing to ask would you please offer me some information about where can I buy the book you use in this course? I am really interested in SLAM. Thank you.
The Probabilistic Robotics Course should be a rather good starting point on the basics. From there, I would continue with tutorials and by implementing papers.
ok, im fine with that. Just thought that since m represent the map we obtain from the measurements, it change or let me say its getting bigger for every timestep we do. So that z(t) depends on a other map then then z(t-5) and so on. But i guess the map we obtained at (t-1) looks different then at (t) but its still the same map/environment we working with. Thanks for the Help.
In the old days, people were going to the landmarks (towers) and take measurements there towards other towers. This created these networks. The problem on the robot is a different one.
Thank you, sir, for these lectures. I'm doing a project on SLAM, and I have some questions about slam. can you please help me out to solve those problems? (Lots of love from INDIA)
Do we allways just have one map? Should not on the Graphical Model for every timestep a map. Just like the observations z(t-1), z(t)...z(T) there is a map m(t-1), m(t)...m(T)?
You are welcome - great to hear that the course helps understanding the material!
good explanation. well organized topics.
Great course. Would you be willing to share the slides with me? You have some nice illustrations
It is still helping people ! Such a great thank you !!!
Can you add slides in the description, Would be very helpfull
this feels like a mix of a well researched and produced tutorial and my actualy lectures at university :D love it
Thank you Cyrill for these uploads! I am a Masters student doing a dissertation only project and your videos are saving me so much time and confusion! Really great.
This is exactly what I was looking for. Thank you Universitat Frieburg.
I have never seen such a wonderful course!
Thanks
@@CyrillStachniss thank you so much for making these lectures available to everyone :) you are doing a great service to the scientific and engineering community :)
Thank you sir!! Please continue to spread knowledge on your platform
you are a life saver :) perfectly explained, thank you so much for recording this video, i was thinking there will be no lecture on SLAM but fortunately i found it. Thankyou again.
Feeling the same ! :) I am interested to know where you applied it , i am going to use it on making Autonomous QuadCopter but in my area there is no one who can hlp with it ! Any suggestions regarding how should i start ! Thanx
As soon as the questions are focused and precisely formulated, no problem.
Thank you so much for the uploads. Feels so good to be getting my attention span back while watching your lectures! Hope I keep coming across and learning from amazing minds like you.
Shoumik Ghosal of
Thanks for this uploads. They are a big help for me to get into the basics of SLAM. I have read most of your papers but with this videos, explain step by step, its much easier to get it. Thank you very much.
I found it very useful and thanks a lot for posting lectures on SLAM and explaining it in so detail.
i took this course to finish my mater thesis about slam, i was using a kinect camera to map my university.
Excellent video. Now, when I was studying SLAM using Probabilistic Robotics I was a bit taken aback about the fact that odometry was actually perceived as control. But when one looks close at it, odometry is only reporting what the robot thinks it has done, which is basically what you told it to do (control). It basically just translates your commands into some calculation supposing that internal parameter (such as wheel diameter) are correct.
I just watched the ekf and ukf videos, they were great. Now I'm going to watch the entire course. Thanks a lot for making the video available!
A well explained SLAM lecture. Thank you teach.
Beautifully done!
You are great tutor. Thank you for sharing your knowledge with everyone without any expectations.
Thank you so much this is an amazing course and it is rarely to find an excellent demonstration about that topic
Simply wow. Thank you very much for sharing.
(from the other part of the world : Sri Lanka)
14:58 hmm but there is no landmark...🤔 that was so fun and nice expression for measurement update 😂😂 thank you for these awesome lectures!
Thanks, awesome introduction. My professor tends to skip the basics!
Nice lessons Sir. Great work
At 18:00, shouldn't the grey star be below the gold star(the star below the word same). Because in its wrong path the distance of the star from the robot measured by the robot is less than the actual distance so, in estimation of the star's position from the robot's path(the real one through which it should go) should be less. so, it should be nearer.
A nice source to learn SLAM.
thank you so much for the uploads !
this is really great !
thank you :D
No, the environment itself does not change so there is no time dependency as for the x, z, or u.
Thanks so much. It's very informative and easy to approach SLAM :)
Yeah they really do! I'll going to watch all of your Courses, hope it's ok to ask if there are any questions about the material :)
Sir
i have a doubt? in this tutorial you explained us how slam works and mapping but you given everything as LA derivations i have doubt here that how to convert these derivations in to real-time coding in python or in C++ to make practically possible,because i'm still learning and exploring...
I am in 2nd Year of B.Tech course ! Can you suggest prior Mathematical knowledge for completing this course or list of prerequisites . I need to learn SLAM for an upcoming project on Autonomous Quadcopter !
SLAM words of full form
Releted with safety.
Thank you very much for spreading knowledge ❤️ Are the slides of these course available to recall them from time to time?
Yes, send me an email
it was great lecture.
Nice one Cyrill
Excellent course and equally understandable teaching. Thank you very much!
This is amazing =) Great Job
come on and slam, and welcome to the jam
thank you very much , this is what im looking forrrrrr
Okay, Sir Cyril what if you don't want wire linings as demarcation. Can the SLAM method still be durable.
Or what other methods of mapping and localization helps a lawn mower possibly mower an area effectively.
You will likely need some sensing of the environment or some form of beacon placed in the garden that you can sense
This is quite helpfull, you have my thanks.
is this course up to date and informative after 11 years?
this is actually amazing, i have a question though, if i were to use model predictive control to minimize navigation errors, how could i approach that ? and how about fault tolerant control, do you have any example of applying it for navigation ? my system is a differential drive, thank you in advance
Perfectly Explained.
So i was currently working with dynamic SLAM problem. Could you suggest which sensors can be more effective in dense dynamic environment?
Excellent primer!
Where can I find these slides? It will be really great if you could add it's link in the description
That mint is scary. what if it sends out mappings of your house to dubious people. now they know your house inside and out. it would be a serious IoT issue.
nice course btw. Thank you!
1:15:00 - Summary
Great explanation! Thanks!
Thanks for this uploads.
Hi Mr. Stachniss! Thanks for this video-lectures! I am new in this area (SLAM). I am trying to implement SLAM in a car robot with a four ultrasonic and a stereo camera. I having difficulties choosing and adapting one of the slam algorithms to this particular case. Could you give some advice about it?
the same situation please if you can help me with anything about , hanen.abdelmoula.enetcom @gmail.com
cool uploads.
Okay... Where's your Patreon page at? My Mobile Robotics lecturer at Warwick could learn a thing or two from your lecture quality.
No Patreon (yet) - but may be I should think about that...
Could you please tell if we can get a copy of these nice slides somewhere?
Thanks Sir.
Are course homework/lab available besides slides?
Yes, send me an email
Dear professor Cyrill Stachniss, I am an undergraduate student of China. I am writing to ask would you please offer me some information about where can I buy the book you use in this course? I am really interested in SLAM. Thank you.
江左林殊 课程主页有链接
The Probabilistic Robotics Course should be a rather good starting point on the basics. From there, I would continue with tutorials and by implementing papers.
Thank you!
ok, im fine with that. Just thought that since m represent the map we obtain from the measurements, it change or let me say its getting bigger for every timestep we do. So that z(t) depends on a other map then then z(t-5) and so on.
But i guess the map we obtained at (t-1) looks different then at (t) but its still the same map/environment we working with.
Thanks for the Help.
this is just awesome
state estimation vs localization?
32:11 Definition of SLAM Process
Brilliant
wish you taught at my uni....
This what i want!
Estate Estimation 00:03:10
is there a way to get the slides?
Send mean email
If the landmarks are very distinctive, why not triangle between those and the vehicle. As they did 500 years ago.
In the old days, people were going to the landmarks (towers) and take measurements there towards other towers. This created these networks. The problem on the robot is a different one.
that's exactly what i need! how to download it?
Thanks!
Are we just going to ignore the fact that this guy has undergone great fat loss transformation now and looks ripped AF in 2021
thanks you so much .
Thank you
Thank you, sir, for these lectures. I'm doing a project on SLAM, and I have some questions about slam. can you please help me out to solve those problems?
(Lots of love from INDIA)
Can you please share course materials?
Send me an email
Nice!
Do we allways just have one map? Should not on the Graphical Model for every timestep a map. Just like the observations z(t-1), z(t)...z(T) there is a map m(t-1), m(t)...m(T)?
thank you for sharing
Danke
it would be better with subtitle
I hope that the people who have disliked this video get a place in heaven :p
51:58 Việt Nam điểm danh :3
b