Breath pacing system and method for pacing the respiratory activity of a subject

The invention claimed is: 1. A breath pacing system for pacing a respiratory activity of a subject, comprising: an input unit generating an input signal related to a respiration characteristic of the subject, the respiration characteristic comprising at least one of an inhale phase and an exhale phase, a signal analyzing unit recognizing a signal pattern within the input signal, and an output unit outputting output signals corresponding to a desired breathing sequence, wherein said output unit, upon receiving a starting signal, outputs a sequence of output signals having a beginning and comprising a signal pattern related to a previously recognized signal pattern, and said sequence of output signals begins with an expand time of the output unit corresponding to the present inhale time of the subject or a contract time of the output unit corresponding to the present exhale time of the subject, said sequence of output signals transitions to a slow down phase independent of the input signal, wherein in the slow down phase, a frequency of the output signals in the sequence is decreased and an amplitude of the output signals in the sequence is increased in the slow down phase until the desired breathing sequence is reached. 2. The breath pacing system according to claim 1 , wherein the output unit is provided as a tactile output unit for outputting tactile output signals. 3. The breath pacing system according to claim 1 , wherein the input unit is integrated into the output unit. 4. The breath pacing system according to claim 1 , wherein the input unit comprises a user interface for receiving a user input for adjusting a characteristic of the sequence of output signals. 5. The breath pacing system according to claim 4 , wherein the input unit comprises at least one of a mouse wheel, a keyboard, at least one button, a touch screen, a touch pad, a squeeze sensor or a pressure switch. 6. The breath pacing system according to claim 1 , wherein the input unit comprises a sensor for sensing a characteristic of the subject. 7. The breath pacing system according to claim 1 , wherein the starting signal is generated upon the signal analyzing unit recognizing the signal pattern gained within at least one monitoring phase having a length for monitoring the respiratory activity of the subject. 8. The breath pacing system according to claim 7 , wherein the length of the monitoring phase is controlled depending on the respiratory activity of the subject within the monitoring phase. 9. A breath pacing system according to claim 1 , wherein the sequence of output signals starts with a signal pattern related to a signal pattern gained within a previous monitoring phase. 10. The breath pacing system according to claim 9 , wherein the sequence of output signals starts with at least one of a frequency, an amplitude related to a frequency, an inhale to exhale ratio, or an amplitude contained in a signal pattern acquired from a previous monitoring phase. 11. The breath pacing system according to claim 1 , wherein the amplitude of the output signal is increased in the slow down phase. 12. A breath pacing system according to claim 1 , wherein the sequence of output signals comprises a fade out phase in which the amplitude of the output signal is decreased. 13. A method for pacing a respiratory activity of a subject, the method comprising: generating, using an input unit, an input signal related to a respiration characteristic of the subject, the respiration characteristic comprising at least one of an inhale phase and an exhale phase, recognizing, using a signal analyzing unit, a signal pattern within the input signal, and outputting, using an output unit, output signals corresponding to a desired breathing sequence, wherein said sequence of output signals comprises a signal pattern related to a previously recognized signal pattern, and said sequence of output signals begins with an expand time of the output unit corresponding to the present inhale time of the subject or a contract time of the output unit corresponding to the present exhale time of the subject, said sequence of output signals transitions to a slow down phase independent of the input signal, wherein in the slow down phase, a frequency of the output signals in the sequence is decreased and an amplitude of the output signals in the sequence is increased in the slow down phase until the desired breathing sequence is reached. 14. The method of claim 13 , wherein the output unit is provided as a tactile output unit for outputting tactile output signals. 15. The method of claim 13 , wherein the input unit is integrated into the output unit. 16. An output unit for pacing a respiratory activity of a subject, comprising: an input unit generating an input signal related to a respiration characteristic of the subject, the respiration characteristic comprising at least one of an inhale phase and an exhale phase, a signal analyzing unit recognizing a signal pattern within the input signal, and an actuator that induces movement of the output unit to output signals corresponding to a desired breathing sequence, said actuator, upon receiving a starting signal, moves, which causes the output unit to output a sequence of output signals having a beginning and comprising a signal pattern related to a previously recognized signal pattern, and said sequence of output signals transitioning to a slow down phase that is independent of the input signal in which a frequency of the output signals in the sequence is decreased and an amplitude of the output signals in the sequence is increased in the slow down phase, wherein said sequence of output signals begins with an expand time of the output unit corresponding to the present inhale time of the subject or a contract time of the output unit corresponding to the present exhale time of the subject. 17. The output unit of claim 16 further comprising a user interface that presents status information about the output unit. 18. The output unit of claim 16 , wherein based on receipt of the sequence of output signals, the output unit changes shape. 19. The output unit of claim 16 , wherein based on receipt of the sequence of output signals, the output unit changes size.