Provided is an electronic equipment offering a plurality of controllable functionalities and that receives information designating a functionality selected amongst this plurality of controllable functionalities. The electronic equipment also receives a plurality of recordings of a same group of at least one user input for this selected functionality. The electronic equipment also applies a trained neural network model on this received plurality of recordings to recognize an input pattern. The electronic equipment also associates this recognized input pattern with this selected functionality, and stores this association in a memory. The electronic equipment also controls this selected functionality based on this stored association.

Provided is an electronic equipment offering a plurality of controllable functionalities and that receives information designating a functionality selected amongst this plurality of controllable functionalities. The electronic equipment also receives a plurality of recordings of a same group of at least one user input for this selected functionality. The electronic equipment also applies a trained neural network model on this received plurality of recordings to recognize an input pattern. The electronic equipment also associates this recognized input pattern with this selected functionality, and stores this association in a memory. The electronic equipment also controls this selected functionality based on this stored association.

An aerosol delivery device is provided. The aerosol delivery device comprises a control component and a digital pressure sensor. The digital pressure sensor is configured to measure a pressure imposed thereon, and generate a corresponding signal that indicates the pressure so measured. The control component or the digital pressure sensor is further configured to control at least one functional element of the aerosol delivery device based on the pressure indicated by the corresponding signal, or a condition of the aerosol delivery device or a user thereof determined from the corresponding signal. Control of the at least one functional element includes output of the pressure or the condition for presentation by a display.

An aerosol delivery device is provided. The aerosol delivery device comprises a control component and a digital pressure sensor. The digital pressure sensor is configured to measure a pressure imposed thereon, and generate a corresponding signal that indicates the pressure so measured. The control component or the digital pressure sensor is further configured to control at least one functional element of the aerosol delivery device based on the pressure indicated by the corresponding signal, or a condition of the aerosol delivery device or a user thereof determined from the corresponding signal. Control of the at least one functional element includes output of the pressure or the condition for presentation by a display.

Various aspects of the present disclosure are directed to electronic cigarette temperature compensation.

Various aspects of the present disclosure are directed to electronic cigarette temperature compensation.

The invention relates to an electronic cigarette or electronic cigar, namely to atomizers and liquid heaters for E-liquid evaporation. The technical result of the invention is to obtain a steam mixture of an improved quality level. This solves the problem of preparing a vapor mixture which, when exhaling after a puff of an electronic cigarette by a user, has a high visual imitation of smoke and also provides a sufficient sensation of the taste of a flavoring agent by the user's taste buds thanks to using two or more differentiated heating sections.

Disclosed is an aerosol-delivery component comprising a vaporiser and having an airflow path extending from at least one upstream air inlet to a downstream air outlet. The airflow path comprises a vaporiser portion extending past (e.g., through a hole in) the vaporiser. The vaporiser portion of the airflow path is at least partly defined by an air tube, e.g., a metal air tube. The air tube has an inlet in fluid communication with the at least one air inlet, and an outlet which is downstream of the vaporiser.

Disclosed is an aerosol-delivery component comprising a vaporiser and having an airflow path extending from at least one upstream air inlet to a downstream air outlet. The airflow path comprises a vaporiser portion extending past (e.g., through a hole in) the vaporiser. The vaporiser portion of the airflow path is at least partly defined by an air tube, e.g., a metal air tube. The air tube has an inlet in fluid communication with the at least one air inlet, and an outlet which is downstream of the vaporiser.

An aerosol-generating device includes a heater configured to heat an aerosol-generating material, a puff detection sensor configured to detect puffs of a user, a battery configured to supply power to the heater, and a controller configured to: based on a new puff being detected by the puff detection sensor, count a number of accumulated puffs including the new puff, determine a puff section corresponding to the number of accumulated puffs from among a plurality of puff sections which are divided according to the number of accumulated puffs, and control the power supplied to the heater based on a power range preset for the determined puff section.