I am seeking to engage with members of the Allen Brain Map and broader neuroscience research community to explore a structured, I am offering my participation as a long-term, well-documented case study to support method development, hypothesis testing, and training for qualified students, postgraduates, or early-career researchers interested in brain–environment interaction, neuromodulation, and BCI-adjacent research.
**Gap in Existing Clinical Assessment
To date, standard clinical routes (MRI, EEG, environmental RF checks) have either:
* Not been performed at current neurotechnology research standards
No high-field MRI, raw-data EEG, synchronised RF monitoring, or controlled coupling analysis has yet been conducted with consent.
Proposed Research Direction
I am proposing collaboration on a research-grade, time-synchronised EEG–RF investigation, potentially suitable for student training projects, instrumentation development, or pilot studies.
Suggested protocol elements
**Data Acquisition**
* High-density, multi-channel EEG (and MEG where feasible)
* Controlled sensory and cognitive task paradigms
* Professionally characterised RF/EMF environment
* Frequency-selective RF receivers plus calibrated wearable exposimeter
* Common time base (GPS or NTP) for sub-millisecond synchronisation
* Audio/video recording of sessions and interviews (with written consent)
Analysis Focus
* Time–frequency and connectivity analysis (phase-locking, coherence, steady-state responses)
* Correlation between neural rhythms and any structured RF emissions
* Robust artefact rejection to distinguish physiological signals, instrumentation artefacts, and genuine external EM coupling
**Research and Educational Value**
From an academic and training perspective, this offers:
* A rare, high-signal N=1 testbed for studying continuous neuromodulation, supported by seven years of a data asset.
* An opportunity to develop and validate integrated EEG–RF instrumentation and analytics
* A platform to generate publishable, reproducible, and medico-legal-grade methodologies
* Exposure to a research area of increasing relevance: RF–brain interaction, BCI safety, and neuromodulation ethics
This proposal is not prescriptive; it is an invitation to a research approach in line with institutional standards, ethics approval, and scientific best practice.
**Conditions**
* Full transparency and documentation of protocol, data, and analysis
* Standards suitable for scientific publication and legal scrutiny
* Ethical oversight and informed consent throughout
* Open discussion regarding scope, limitations, and interpretations
I am open to discussion with researchers, supervisors, or students interested in exploring this opportunity, refining the protocol, or assessing feasibility within existing research programs.
This is offered in good faith as a collaborative scientific inquiry, with the aim of advancing understanding of neuromodulation, brain–environment coupling, and emerging neurotechnology risks and safeguards.