Table 1.
Comparison between the previous methods and the proposed method of emotion recognition.
| Category | Method | Advantages | Disadvantage | |
|---|---|---|---|---|
| Using a single modality | Visible-light camera-based methods [3,4,5,6]. | User’s emotion is recognized based on facial expression in an image. | - Providing comfort to the user without the attachment of sensors. - Less expensive method than bio-signal or thermal camera-based methods. |
- Analyzing emotion is difficult if the person has no expression. - Extraction of the facial feature points can be affected by non-uniform illumination. |
| Thermal camera-based methods [7,12]. | Measuring the change of facial temperature according to emotion. | - Providing comfort to the user without the attachment of sensors. - Analyzing emotion is easy, even if the person has no expression. - Extraction of the facial feature points is not affected by illumination condition. |
- More expensive method than visible-light camera-based method. - Difficult to detect regions of facial features because the texture of facial features is not distinct in the thermal image. |
|
| Voice-based methods [2,8,9]. | Measuring the change of voice features according to emotion. | Less expensive method than bio-signal or thermal camera-based method. | - The performance can be affected by surrounding noises. | |
| Physiological signal-based methods [10,11,16,17,18]. | ECG [10] and EEG [11,16,17,18] are analyzed for emotion detection. | High accuracy of emotion detection and fast speed of data acquisition. | - More discomfort to the user because sensors are attached to the body. - More influenced by the motion of the head, body and muscles than camera- or voice-based methods. |
|
| Using multiple modalities | Multiple physiological signal-based methods [13,14,15]. | - Using EEG, heart rate, SC, respiration, ST and psychometrical ratings [13]. - Using PPG, EMG, ECG, GSR and ST [14]. - Using SC, blood volume pressure, ST, EMG and respiration [15]. |
Higher accuracy of emotion detection compared to single modality-based methods. | - More discomfort to the user because many sensors are attached to the body. - More influenced by the motion of the head, body and muscles than single modality-based methods. |
| Hybrid method using both physiological signals and non-intrusive camera-based methods (proposed method). | Using facial temperature, EEG, blinking rate and subjective evaluation for evaluating fear. | - Higher accuracy of emotion evaluation compared to single modality-based methods. - More comfort to the user and higher freedom of movement without the attachment of sensors, except for a wireless EEG device. - Facial feature positions on the thermal image can be easily detected using dual (visible-light and thermal) cameras. |
Larger amount of data to be processed after acquiring the image sequences by dual cameras. | |