# SSVEP-013: A Practical VEP-Based Brain-Computer Interface

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## 论文访问

* 内部 PDF: <a href={"/papers/SSVEP-013.pdf"} download style={{ display: "inline-flex", alignItems: "center", justifyContent: "center", minHeight: "2.25rem", padding: "0.45rem 0.8rem", borderRadius: "6px", backgroundColor: "#047857", color: "#ffffff", fontWeight: 700, lineHeight: 1, textDecoration: "none", boxShadow: "0 1px 2px rgba(15, 23, 42, 0.22)" }}>下载论文 PDF</a>
* DOI / 官方页面: [10.1109/TNSRE.2006.875576](https://doi.org/10.1109/TNSRE.2006.875576)
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## SSVEP-013: A Practical VEP-Based Brain-Computer Interface

## Metadata

* ID: SSVEP-013
* Title: A Practical VEP-Based Brain-Computer Interface
* Year: 2006
* DOI / URL: 10.1109/TNSRE.2006.875576
* Local PDF: 见上方论文访问区块
* Text artifact: local-only path withheld from docs site
* Review status: `extracted`

## Study Type

* Track: SSVEP
* Task: practical frequency-coded VEP/SSVEP BCI system design and evaluation
* Participants or dataset: local text reports healthy volunteers and spinal cord injury participants; exact counts should be checked before clinical citation
* Device/electrode setup: EEG over visual cortex; local text discusses 32-channel recording for parameter selection and practical reduced-channel designs
* Protocol/task: visual target selection and command completion tasks

## Methods

* Paradigm: frequency-coded steady-state visual evoked potentials
* Signal processing or analysis: frequency detection and parameter optimization for channels, stimulus frequencies, and data length
* Online/offline: system evaluated in laboratory and rehabilitation-center settings

## Key Results

* Abstract states the system was applicable to 90% of people with high ITR in living environments.
* The paper emphasizes reducing user variation and selecting practical channels/frequencies.

## Limitations

* VEP/SSVEP command interfaces, not object-level robot grasping.
* Clinical/general-population details need careful extraction before strong usability claims.
* Modern scene-aware visual stimulation issues are absent.

## Relevance To Current Review

* Provides a bridge from early lab SSVEP BCI to practical system considerations.
* Useful for discussing channel reduction, stimulus parameter selection, and real-world usability constraints.

## Evidence Status

| Claim | Status | Evidence Note |
| --- | --- | --- |
| Practical SSVEP/VEP BCI design requires channel, frequency, and data-window optimization. | verified | Methods discuss signal channels, stimulus frequency, and data length parameters. |
| VEP/SSVEP BCI was evaluated beyond a simple lab demo. | verified | Abstract reports laboratory and rehabilitation-center evaluation. |
| SAH-BRI-Grasp can assume 90% usability. | needs confirmation | Different task, hardware, subjects, and visual layout. |

## Open Questions

* Extract the exact participant counts for healthy and spinal cord injury groups before citing clinical usability.
* Check whether the practical design used one, two, or more channels in final operation.
