Method for determining the risk of a user waking up in an undesirable state

1 . A method for determining a wake up indicator, wherein the wake up indicator measures the risk of a user waking up in an undesirable state, the method comprising: determining a sleep inertia estimation based on at least one physiological signal of the user for estimating if the user is in NREM sleep; determining an atonia estimation based on at least one physiological signal of the user for estimating if the user is in REM sleep; and using the inertia estimation and the atonia estimation to determine the wake up indicator. 2 . A method as claimed in claim 1 , comprising determining the wake up indicator as a weighted sum of the sleep inertia estimation and the atonia estimation. 3 . A method as claimed in claim 1 , comprising determining the physiological signal using an electroencephalogram, EEG, electrocardiogram ECG, photopletismogram PPG, an electro-oculogram (EOG) and/or an electromyogram, EMG. 4 . A wake up indicator computer program, such as a mobile application, comprising code means for implementing the method of claim 1 , when said program is run on a processing system. 5 . A method for actuating an alarm at an optimal time for a user, comprising: receiving a desired time to actuate the alarm, and thus to wake up, from the user; receiving a time window from the user, the time window defining a set of times, before the desired time, during which the alarm can be actuated; checking the time is within the time window; in response to the time being within the time window: determining the wake up indicator using the method as claimed in claim 1 ; determining if the wake up indicator is within a pre-determined range; and actuating the alarm when the wake up indicator is within the pre-determined range or when the desired time is reached. 6 . A method as claimed in claim 5 , further comprising adapting the pre-determined range to the user. 7 . An alarm actuation computer program, such as a mobile application, comprising code means for implementing the method of claim 5 when said program is run on a processing system. 8 . A device for determining a wake up indicator, wherein the wake up indicator measures the risk of a user undesirably waking up, comprising: at least one sensor for sensing at least one physiological signal; a processor; and a wake up indicator computer program, as claimed in claim 4 , operated by the processor for determining the wake up indicator. 9 . A device as claimed in claim 8 , wherein at least one of the sensors is attached to the user, such as electrodes for an EEG, ECG, EMG or an EOG. 10 . A device as claimed in claim 8 , wherein at least one of the sensors is independent from the user, such as a microphone or a camera. 11 . A system for waking a user up at an optimal time, comprising: a device for determining a wake up indicator, wherein the wake up indicator measures the risk of a user undesirably waking up, comprising at least one sensor for sensing at least one physiological signals; an alarm for waking the user up; a processor; and an alarm actuation computer program, as claimed in claim 7 , operated by the processor for actuating the alarm. 12 . A system as claimed in claim 11 , wherein the alarm is adapted to deliver a stimulus, such as auditory, visual or somatosensory stimulation, to the user. 13 . A device as claimed in claim 12 , wherein the alarm is adapted to deliver a stimulus having an intensity which increases gradually, such as an increasing sound intensity over time. 14 . A system as claimed in claim 11 , wherein the system is adapted to wake a user up from a daily sleep. 15 . A system as claimed in claim 11 , wherein the system is adapted to wake a user up from a short nap.