Thorsten O. Zander

Thorsten O. Zander (born 1975 in Lüdenscheid, Germany) is a German scientist who introduced the concept of passive brain-computer interface.

He co-founded Zander Labs, a German-Dutch company in the field of passive brain computer interface (pBCI) and neuro-adaptive technology (NAT).

Zander attended the University of Münster from 1998 to 2004 where he graduated in mathematics, with focus on mathematical logic.

During his studies, he worked for the university's office supporting visually impaired users and at the Fraunhofer Institute First in Berlin.

In 2008, together with this group, he developed the concept of passive brain-computer interfaces (pBCIs) that refers to the use of BCIs to improve human-computer interaction by assessing information about the user state.

This approach is different compared to traditional BCIs, as no explicit commands are involved and thus, no additional effort is expected from the user.

Due to his work on passive BCIs, Zander gained international recognition within the scientific community and the media.

He founded the Community for Passive BCI Research group, that then transitioned into the Society for Neuroadaptive Technology that Zander co-leads with Prof. Dr. Stephen Fairclough.

He organized a series of conferences about the topic of Neuroadaptive Technologies that received great international attention.

He collaborated in investigations outside of Germany, such as the partnership with the Swartz Center for Computational Neuroscience Department and the Cognitive Science Department in San Diego, USA.

Also, together with the

Leibniz Institute for Knowledge Media, from Tübingen, he conducted a research on the implications of passive BCI in education as an aiding tool meant to combat boredom through adaptive and personalized learning.

After cooperating with a robotics study with the Max Planck Institute, he joined Bernhard Schölkopf's postdoctoral workgroup, where he further focused on developing machine learning algorithms in the context of passive BCI.

Here, he helped to improve and stabilize the initial methodology and became more determined to work on human-computer interaction bottlenecks.

When returning to the Technical University of Berlin he researched the autonomous detection of user models through passive BCI.

In the study, an implicit cursor control experiment demonstrated the adaptation of a computer to the users by decoding their expectations in real time.

The topic became Zander's main research interest and is now called neuroadaptive technology.

His publications address the ethical considerations of this innovation, as it implies potential threats to the privacy of thought and ownership.

Zander and Christian Kothe introduced the concept of passive BCI in 2008 during the Graz BCI Conference, after having contrasted “passive control of a system” in one experiment with “active motor control” in an earlier publication at a SIGCHI Workshop at CHI 2008.

In 2011 he obtained his PhD from the chair of Human-Maschine Systems at Technical University of Berlin, supervised by Prof. Dr.-Ing.

Matthias Roetting and Dr. Scott Makeig (Director of the SCCN at UCSD).

During his studies at University of Münster Zander became interested in interdisciplinary sciences and started working on concepts related to human and artificial intelligence.

His work in the Brain-Computer Interfaces (BCI) field started during his collaboration with the Fraunhofer Institute First, where he was involved in research connected to applications meant to enable disabled people to communicate with the outside world.

He then went on to obtain his PhD from the Technical University of Berlin and started a workgroup called “Team PhyPA” (Physiological Parameters for Adaptation of Human‐Machine Systems), which is still functioning today.

This concept was formally expounded in 2011, offering passive BCI as a “[fusion of] BCI technology with cognitive monitoring” to constitute a third category of BCI systems aside from “active” and “reactive”.

In this categorization, a passive BCI system “derives its outputs from arbitrary brain activity arising without the purpose of voluntary control, for enriching a human–machine interaction with implicit information on the actual user state.

Active and reactive systems, on the other hand, are consciously used by users with the intention to control an application.

The word “passive” in passive BCI “(…) refers to the role of the end user of a system with respect to the BCI: (…) it is an inherent and defining aspect that the user exerts no effort to actively, explicitly, or voluntarily elicit or modulate [the targeted brain] activity.

Instead, the user focuses on the task at hand while a passive BCI system, in the background, monitors their brain activity for informative correlates of relevant cognitive or affective states.” As a result, the decoded cognitive or affective states can be used as implicit input to a system, “independently of any intentionally communicated command.”

Although criticized for being a subjective term and lacking a “clear neuroscientific definition”, passive BCI was later identified as one of the guiding principles of future BCI research, and research into passive BCI has increased relative to more traditional, i.e. active and reactive, applications

With passive BCI providing the technological means to obtain implicit input from brain activity to a system, it can be used to various ends.

Zander organized the Passive BCI Community Meeting in Delmenhorst, 2014, where the term neuroadaptive technology was elected to represent a line of research that uses implicit input from a passive BCI to create closed-loop adaptive systems.

The Society for Neuroadaptive Technology, which organizes the Neuroadaptive Technology Conferences, explains that “neuroadaptive technology utilises real-time measures of neurophysiological activity within a closed control loop to enable intelligent software adaptation.” |title=Neuroadaptive.org }} A more recent definition proposes that “a technology is neuroadaptive when it acquires implicit input through a brain-computer interface, and uses this input to enable control”

In 2020, he obtained a full Professorship for Neuroadaptive Human-Computer Interaction department at Brandenburg University of Technology.

Apart from teaching courses related to BCI, he still actively leads “Team PhyPA”.

Their studies focus on neuroadaptive technologies, usability investigations in the context of human‐computer interaction and other neuroscientific topics.

The team also organizes regular workshops at conferences such as at the Neuroergonomics Conference,

In the corporate sphere, Zander collaborated with companies such as Microsoft, Volkswagen, Brain Products, Cognionics or Airbus Central R&T.

He is also the co-founder of the Zander Laboratories company in Amsterdam, which aims to provide expertise in research questions regarding Human-Computer Interaction.

He is currently a Lichtenberg professor, awarded by the Volkswagen Foundation.