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Bogeyman 

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Human trials have been carried out in the field for the military wearable exoskeleton system. page 103.
The automation level of the cenker system has been increased, electro-optical unit, mini/nano UAV integrations have been realized and mass production of the system has been started.

 

Huelague

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Human trials have been carried out in the field for the military wearable exoskeleton system. page 103.
The automation level of the cenker system has been increased, electro-optical unit, mini/nano UAV integrations have been realized and mass production of the system has been started.

Next time they should use our own MPT rifle.
 

Bogeyman 

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View attachment 20400 View attachment 20401 View attachment 20402 View attachment 20403

Human trials have been carried out in the field for the military wearable exoskeleton system. page 103.
The automation level of the cenker system has been increased, electro-optical unit, mini/nano UAV integrations have been realized and mass production of the system has been started.



TÜBITAK Bilgem Cloud Computing and Big Data Research Laboratory is developing the HumanE-AI-Net project to facilitate human artificial intelligence interaction. It was announced that one of the outputs of the project was the development of a brain computer interface.
In this context, Dr. Mehmet HAKLIDIR implied it that Aselsan's cenker project was involved. As part of the project, it also seems that the exoskeleton project is associated with the topic. Here, brain computer interface technology can provide us with incredible possibilities for sensor fusion and machine learning. As in the United States, it takes a person's mind to see such horizon-opening projects in Turkey. :love::love::love:


HumanE Al Net


The development of robust and trustworthy artificial intelligence (AI) systems has fundamental challenges, such as understanding humans, adapting to complex real-world environments, and interacting appropriately in complex social environments. At this point, the general vision is to facilitate AI systems that improve human abilities, while also empowering individuals and society as a whole by taking into account human autonomy and self-determination. For the development of such systems, breakthroughs in the interfaces of various fields such as human-computer interaction, cognitive science, social sciences, complex systems are required instead of only traditional AI systems. The HumanE-AI-Net project brings together a community of expertise in all these areas and interfaces between them.

The project vision is built on ethical values and trust (Responsible AI). These are closely intertwined with AI's impact on society, including issues with complex dynamic interactions between networked AI systems, the environment and people. Therefore, the basic gaps in knowledge and technology are addressed in three closely related areas in relation to the main AI issues in the project content:

• Learning, reasoning and planning
• Multimodal perception of dynamic real world and social environments
• Human-friendly collaboration and co-creation in mixed human-artificial intelligence environments


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In the project, it is expected that researchers from different institutions will develop micro-projects in collaboration to work on a well-defined research problem with a common goal. In this scope, TÜBİTAK BİLGEM and DFKI (Deutsches Forschungszentrum für Künstliche Intelligenz) will jointly make a micro-project.

EEG Based Brain Computer Interfaces​

Brain computer interfaces (BBA) are basically based on the conversion of the electrical activity of the brain into commands transmitted to external devices using the EEG signal. Today, BBA systems find application in prosthesis and assistive device control, as well as in measuring mood and cognitive workload. Neural mechanism in human brain during weight lifting will be investigated within the scope of the micro project.

Understanding the mechanism of the neural correlates during human physical activities is important for providing safety in industrial factory environments considering brain activity during lifting a weight. Moreover, different responses to the same task can be observed due to physiological and neurological differences among individuals. In this project, the change pattern in EEG will be investigated during lifting of a weight and the features in EEG data making difference during lifting a weight will be analyzed.

Classification between lifting and no lifting cases will be realized by using deep learning based machine learning methods. The outcomes of the project can be applied in industrial exoskeleton applications as well as physical rehabilitation of stroke patient.

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