Method for monitoring the relative positioning of two objects and corresponding system

The invention claimed is: 1. A system, comprising: a reader circuit having a contactless reader function; a first object including a transponder comprising an integrated circuit that has two terminals which may be selectively electrically short circuited to each other, the reader circuit and the transponder being configured to communicate with one another using a contactless communication protocol; a second object, wherein the first and second objects are movable in relation to one another; and a shorting circuit path that is located at least partly on said second object and configured to selectively electrically short circuit the two terminals to each other depending on a relative positioning of the first and second objects with respect to each other; wherein the transponder is configured to transmit, to said reader circuit, positioning information corresponding to said relative positioning as indicated by whether the two terminals have been selectively electrically short circuited to each other by said shorting circuit path; wherein the shorting circuit path includes a trigger circuit configured to selectively establish an electrical short circuit between the two terminals; wherein: the trigger circuit comprises, on the second object, two electrically conductive zones that are linked by an electrically conductive linking element; and the two electrically conductive zones and the two terminals are arranged such that the two electrically conductive zones and the two terminals respectively become mutually electrically coupled in a first relative positioning of the first and second objects and such that the two electrically conductive zones and the two terminals do not respectively become mutually electrically coupled in at least one second relative positioning of the first and second objects that is different from the first relative positioning. 2. The system according to claim 1 , wherein the integrated circuit comprises: a register configured to contain said positioning information; and a processing circuit configured to detect a potential electrical short circuit between the two terminals and to assign a first value to said positioning information when the two terminals have been selectively electrically short circuited to each other and assign a second value when the two terminals have not been selectively electrically short circuited to each other. 3. The system according to claim 1 , wherein the two terminals being electrically short circuited to each other corresponds to a first relative positioning of the first and second objects, and the two terminals not being electrically short circuited to each other corresponds to at least one second relative positioning of the first and second objects that is different from the first relative positioning. 4. The system according to claim 1 , wherein said trigger circuit is located on the second object. 5. The system according to claim 4 , wherein the trigger circuit comprises electrically conductive circuitry. 6. The system according to claim 1 , wherein the second object comprises said reader circuit. 7. The system according to claim 6 , wherein the transponder includes a transponder antenna and the reader circuit includes a reader antenna, and wherein the transponder antenna, the two terminals and the reader antenna are arranged such that the reader antenna and the transponder antenna face one another when the two terminals are shorted. 8. The system according to claim 1 , wherein said second object is distinct from said reader circuit. 9. The system according to claim 8 , comprising a cellular mobile telephone incorporating said reader circuit. 10. The system according to claim 1 , wherein the integrated circuit comprises: a register configured to contain said positioning information; and a processing circuit configured to detect a potential electrical short circuit between the two terminals and to assign a first value to said positioning information when the two terminals are electrically short circuited and assign a second value when the two terminals are not electrically short circuited; and wherein the transponder includes at least one identifier of the first object, and the reader circuit is configured to perform an operation of authenticating the first object on the basis of said identifier and to deliver a first indication as to whether said identifier has been authenticated and whether said positioning information has the first value. 11. The system according to claim 1 , wherein the shorting circuit path presents an impedance of less than 100 ohm between the two terminals. 12. The system according to claim 1 , wherein the shorting circuit path presents an impedance of less than 50 ohm between the two terminals. 13. A system, comprising: a reader circuit having a contactless reader function; a first object including a transponder comprising an integrated circuit that has two terminals which may be selectively electrically short circuited to each other, the reader circuit and the transponder being configured to communicate with one another using a contactless communication protocol; a second object, wherein the first and second objects are movable in relation to one another; and a shorting circuit path that is located at least partly on said second object and configured to selectively electrically short circuit the two terminals to each other depending on a relative positioning of the first and second objects with respect to each other; wherein the transponder is configured to transmit, to said reader circuit, positioning information corresponding to said relative positioning as indicated by whether the two terminals have been selectively electrically short circuited to each other by said shorting circuit path; wherein the shorting circuit path includes a trigger circuit configured to selectively establish an electrical short circuit between the two terminals; wherein: the trigger circuit comprises an electrically conductive wall of the second object; and the two terminals and said electrically conductive wall are arranged such that said electrically conductive wall and the two terminals are mutually electrically coupled in a first relative positioning of the first and second objects and such that said electrically conductive wall and the two terminals are not mutually electrically coupled in at least one second relative positioning of the first and second objects that is different from the first relative positioning. 14. The system according to claim 13 , wherein the integrated circuit comprises: a register configured to contain said positioning information; and a processing circuit configured to detect a potential electrical short circuit between the two terminals and to assign a first value to said positioning information when the two terminals have been selectively electrically short circuited to each other and assign a second value when the two terminals have not been selectively electrically short circuited to each other. 15. The system according to claim 13 , wherein the two terminals being electrically short circuited to each other corresponds to a first relative positioning of the first and second objects, and the two terminals not being electrically short circuited to each other corresponds to at least one second relative positioning of the first and second objects that is different from the first relative positioning. 16. The system according to claim 13 , wherein said trigger circuit is located on the second object. 17. The system according to claim 13 , wherein the second object co