DE102012007195A1 - System for acquiring, processing and using multimedia output indicator in browser-enabled information processing system e.g. smartphone, has information processing device whose functions are extended by connecting with another device - Google Patents

Abstract

The system has an information processing device (MV1) that is releasably, and wire-bound or wirelessly connected or integrated as accessory equipment with the information processing system (MC). The functions of the information processing device are controlled by computer application of information processing system. The functions of the information processing device are extended by connecting the information processing device with another information processing device. The information processing device is equipped with an optical sensor (ES) and radio frequency identification reader.

Description

The invention relates to a mobile information processing system for the acquisition, processing, application of indicators as well as the interactive multimedia output and activation of the corresponding information with the indicators and the actions.

Such technical aids are used in the application situations or in the tasks in which objects or media themselves have no information-processing properties due to their nature, but there is a need for these objects or media with interactive multimedia properties or with information-processing applications supplement or upgrade.

• • Technologie der Optischen Identifikation (Optical Identification, OID): Hier werden grafische Micro-Indexdaten sichtbar oder unsichtbar auf einem Träger-Medium angebracht. Die mit OID verschlüsselten Indexdaten können mithilfe von IR-/UV- bzw. CCD-/CMO-Sensoren erfasst werden.
• • Technologie zur Identifizierung mit Hilfe elektromagnetischer Wellen (Radio-Frequency Identification, RFID): Bei dieser Technologie werden die Indexdaten als eine bestimmte elektromagnetische Frequenzkonstellation verschlüsselt und sichtbar oder unsichtbar in das oder auf dem Träger-Medium implementiert bzw. angebracht. Solche Indexdaten können mithilfe RFID-Lesevorrichtungen erfasst werden.
• • Kapazitive Technologie: Bei der die Indexdaten eine Struktur aus leitfähigem Material darstellt und auf einem nicht leitfähigen Träger-Medium angebracht ist. Die kapazitiv en Indexdaten können mithilfe kapazitiver Flächensensoren erfasst werden.

In this case, such objects or media are preferably provided with indicators as index data, which represent a bridge between a medium and the information processing system. Such indicators in most cases represent one-dimensional and multi-dimensional codes, to which interactive information or multimedia actions correspond in the information-processing system. These indicators to be recorded and processed can be mounted both visibly and invisibly on a carrier medium. Different technologies can be used to realize the indicators:

• • Optical Identification (OID) technology: Here, graphical micro-index data is displayed visibly or invisibly on a carrier medium. The OID-encrypted index data can be captured using IR / UV or CCD / CMO sensors.
• • Radio Frequency Identification (RFID) technology: This technology encrypts the index data as a specific electromagnetic frequency constellation and implements it visibly or invisibly into or on the carrier medium. Such index data can be captured using RFID readers.
• • Capacitive technology: where the index data represents a structure of conductive material and is mounted on a non-conductive carrier medium. Capacitive index data can be acquired using capacitive area sensors.

In the following, some typical use cases are described using the example of OID technology, without being limited to these examples:

Multimedia supplement of a print medium:

The printed image in a magazine contains a visible or invisible graphical indicator as a one- or two-dimensional OID code. This code is captured with an OID sensor, matched with stored supplementary audio / video or other multimedia information. The additional information corresponding to this code is output in multimedia.

Link to a website (Print to Web):

In a print medium, a web page address is printed as a URL. This URL contains an invisible indicator. This indicator is detected with an OID sensor, the user is directed to the corresponding web page with this code.

Verification of the origin, authenticity or quality of an article:

On the packaging of a branded article, an OID indicator is invisibly applied. This is recorded, compared with stored information and checked the authenticity, quality or origin.

Multimedia or interactive supplement of a game:

In a particular step during a game, an indicator posted on the game is read, in an information processing system an application corresponding to that indicator is called.

• • Indikator-Erfassung: Auslesen der Indexdaten abhängig von der realisierten Technologie mithilfe der optischen, elektromagnetischen, kapazitiven oder sonstigen Erfassungsvorrichtungen.
• • Indikator-Ermittlung: Ermittlung der den Indikatoren entsprechenden ID's durch Signal-Verarbeitung (insbesondere durch Signal-Decodierung).
• • Indikator-Anwendung: Die mit den ermittelten ID's korrespondierenden Informationen oder Aktionen werden entsprechend der gewählten Funktion bzw. dem gewählten Anwendungsfall ermittelt und angewandt.
• • Ausgabe: die mit den ermittelten ID's korrespondierenden Informationen bzw. Aktionen werden ausgegeben bzw. ausgelöst.

The process for such applications consists of the following steps ( 1 ):

• • Indicator Capture: Reading the index data based on the technology realized using optical, electromagnetic, capacitive or other sensing devices.
• • Indicator determination: determination of the IDs corresponding to the indicators by signal processing (in particular by signal decoding).
• • Indicator application: The information or actions corresponding to the identified IDs are determined and applied according to the selected function or application.
• • Output: the information or actions corresponding to the determined IDs are output or triggered.

• • Bei einigen Informationssystemen üblicher Bauart sind zwar die Vorrichtungen zur Durchführung aller Prozess-Schritte als ein eigenständiges mobiles informationsverarbeitendes System realisiert, die Möglichkeiten zur Indikator-Anwendung bzw. Ausgabe der mit den Indikatoren korrespondierenden Informationen und Aktionen eingeschränkt. Um beispielsweise eine gedruckte Internet-Adresse mit einer Webseite im Internet zu verbinden, muss die Mobile Vorrichtung eine Browserfunktionalität aufweisen. Dazu müsste man in einem mobilen Gerät alle für die Browserfähigkeit erforderlichen Computerfunktionalitäten nachbilden, was sehr aufwändig wäre. Oder aber, wenn man eine Anwendung aktivieren möchte, die mit dem erfassten Indikator korrespondiert, müsste man auch hierzu in einem mobilen Gerät ebenso Computerfunktionalitäten nachbilden. Auch das würde den Aufwand eines des Informationssystems deutlich nach oben treiben.
• • Bei einigen Informationssystemen üblicher Bauart wird die Indikator-Erfassung durch eine eigenständige Indikator-Lesevorrichtung ermöglicht und die ausgelesenen Indikatoren an ein separates eigenständiges informationsverarbeitendes System übertragen. Dabei ist der Nachteil, dass der Anwender mit mindestens zwei mobilen Geräten hantieren muss und die Anwendung nicht handlich ist.
• • Bei vielen Informationssystemen üblicher Bauart ist die Ausgabefähigkeit sehr eingeschränkt. Die Ausgabe wird meist als Audioausgabe realisiert. Es gibt zwar auch Informationssysteme, die auch andere Formen der multimedialen Ausgabe aufweisen, diese sind jedoch eingeschränkt (z. B. falls ein Display vorhanden ist, so ist dieser sehr klein und mit einer geringen Auflösung). Dies schränkt die Anwendungsmöglichkeiten des Informationssystems erheblich ein. Falls man die multimediale Ausgabefähigkeit verbessern möchte, müsste man die Informationssysteme üblicher Bauart multimedial deutlich aufwerten, was den Aufwand unverhältnismäßig erhöhen würde.
• • Oft werden zur Durchführung des oben beschriebenen Prozesses (1) solche Erfassungstechnologien eingesetzt, bei denen die Erfassung mithilfe von Sensoren mit einer größeren Fläche stattfindet. Dazu zählen insbesondere kapazitive Flächensensoren. Dabei werden die einzelnen Prozess-Schritte durch eine mobile Vorrichtung (z. B. durch ein Smartphone) durchgeführt. Die Erfassung der Indikatoren wird durch das Display selbst als kapazitiver Sensor vorgenommen, dabei weist ein solcher Flächensensor eine deutliche Fläche auf. Aufgrund der Beschaffenheit des Mediums oder der Erfordernisse der Anwendung werden die Indikatoren aber oft punktuell auf dem Medium angebracht, sodass die Erfassung mit einem recht flächigen Display nicht möglich oder sehr umständlich ist.

The information systems of conventional design support such a process, their embodiments are quite different and have some weaknesses:

• In some information systems of conventional design, the devices for carrying out all process steps are implemented as a standalone mobile information processing system which limits the possibilities of indicator application or output of the information and actions corresponding to the indicators. For example, to connect a printed Internet address to a web page on the Internet, the mobile device must have browser functionality. For this one would have to emulate in a mobile device all necessary for the browser capability computer functionality, which would be very costly. Or, if you want to activate an application that corresponds to the recorded indicator, you would also have to simulate computer functionalities in a mobile device. That, too, would significantly increase the effort of the information system.
• In some information systems of conventional design, indicator detection is enabled by a stand-alone indicator reading device and the read-out indicators are transmitted to a separate stand-alone information processing system. The disadvantage here is that the user must handle at least two mobile devices and the application is not handy.
• • In many information systems of conventional design, the output capability is very limited. The output is usually realized as an audio output. Although there are also information systems that have other forms of multimedia output, these are limited (eg, if there is a display, it is very small and with a low resolution). This considerably restricts the possibilities of using the information system. If you want to improve the multimedia output capability, you would have to upgrade the information systems of conventional design significantly multimedia, which would disproportionately increase the effort.
• • Often, to carry out the process described above ( 1 ) such detection technologies are used, where the detection takes place using sensors with a larger area. These include in particular capacitive area sensors. The individual process steps are carried out by a mobile device (eg by a smartphone). The detection of the indicators is carried out by the display itself as a capacitive sensor, while such an area sensor has a significant area. Due to the nature of the medium or the requirements of the application, however, the indicators are often applied selectively to the medium, so that it is not possible or very cumbersome to capture them with a rather flat display.

The protection specified in claim 1 invention is based on the problem to provide a mobile information processing system, which includes the static and dynamic, non-contact and contacting detection, processing, application of indicators and the multimedia output and activation / triggering of the corresponding information indicators and the Actions that consists of a mobile information processing device, the mobile information processing device as an attachment allows a detachable connection to a mobile information processing system wired and wireless, directly through its own data interface and an optional mobile connection device and an integrated unit with the mobile information processing System forms.

This problem is solved with the features listed in the protection claim 1.

Functioning and various embodiments of the invention will be described below using the example of OID technology.

Designs:

Embodiment 1 (1a-1d), in particular as a mobile information system as a supplement / enhancement of a mobile information processing system.

An advantageous example of the embodiment 1 is based on 2 to 22 explained, which show:

2 2D representation of the process coverage as well as the other features by the components of the execution 1

3 3D exploded view and components of the embodiment 1a (front)

4 2D exploded view and components of version 1a (front)

5 3D exploded view and components of version 1a (back)

6 2D exploded view and components of version 1a (back)

7 3D representation of the assembled components of embodiment 1a (front)

8th 2D representation of the assembled components of embodiment 1a (front)

9 3D representation of the assembled components of embodiment 1a (back)

10 2D representation of the assembled components of embodiment 1a (back)

11 3D exploded view and components of embodiment 1b with a connection device and a connector (front side)

12 2D exploded view and components of embodiment 1b with a connector and a connector (front)

13 3D exploded view and components of the embodiment 1b with a connecting device and a connector (back)

14 2D exploded view and components of the embodiment 1b with a connecting device and a connector (back)

15 3D representation of the assembled components of embodiment 1b with a connecting device and a connector (front side)

16 2D representation of the assembled components of embodiment 1b with a connection device and a connector (front side)

17 3D representation of the assembled components of embodiment 1b with a connecting device and a connector (rear side)

18 2D representation of the assembled components of embodiment 1b with a connection device and a connector (rear side)

19 3D exploded view and components of the embodiment 1c with a connection device, receiving device and a data cable (front side)

20 3D illustration of the assembled components of embodiment 1c with a connection device, receiving device and a data cable (front side)

21 3D exploded view and components of embodiment 1d with a connection device, receiving device and a connector (front side)

22 3D illustration of the assembled components of embodiment 1d with a connection device, receiving device and a connector (front side)

The mode of operation and the nature of individual components of embodiment 1 are described in more detail below on the basis of the realization of the indicators by means of the OID technology as well as on the basis of various application examples:

Fig. 3

• – Mobile informationsverarbeitende Vorrichtung (MV1) Das ist das eigentliche Zusatzgerät.
• – Erfassungssensor (ES) Abhängig von der zu erfassenden Indikator-Technologie werden zur Erfassung und Verarbeitung von Indexdaten mit der OID-Technologie mindestens ein optischer Sensor (CCD-, CMOS-Sensor, IR-Sensor, UV-Sensor etc.) eingesetzt; zur Erfassung und Verarbeitung von Indexdaten mit der RFID-Technologie mindestens eine elektromagnetische RFID-Lesevorrichtung eingesetzt; zur Erfassung und Verarbeitung von Indexdaten mit der kapazitiven Technologie mindestens ein kapazitiven Sensor eingesetzt.
• – Kopfhöreranschluss (KA) Wird als eine minimale Konnektivitätausstattung der mobilen informationsverarbeitenden Vorrichtung (MV1) eingesehen.
• – Mikrofon (M) Wird als eine minimale Eingabe-/Einlese-Ausstattung der mobilen informationsverarbeitenden Vorrichtung (MV1) eingesehen. Mithilfe dieses Mikrofons wird Tonaufnahme insbesondere dann ermöglicht, falls das mobile informationsverarbeitende System (MC) selbst keine Tonaufnahmemöglichkeit aufweist.
• – Datenschnittstelle (1) Diese lösbare Datenschnittstelle korrespondiert mit der Datenschnittstelle (22). Über diese Datenschnittstelle werden Daten sowie Energie mit dem mobilen informationsverarbeitenden System (MC) bidirektional ausgetauscht.
• – Mobiles Informationsverarbeitendes System (MC) Dies stellt ein kleines mobiles vorzugsweise browserfähiges System mit digitaler Computer-Funktionalität inkl. der Computer-Anwendungen und Daten, mit Rechen- und Steuerungswerk, Speicherwerk (wie Smartphone, Persönlicher Digitaler Assistent (PDA), Mobiltelefone, Tablet-Computer etc.), vorzugsweise drahtgebundener und drahtlosen Computer-Konnektivität, mit vorzugsweise Multimedia-Verarbeitungs-, Eingabe-, Einlese und Ausgabefunktionalität dar.
• – Datenschnittstelle (22) Diese Datenschnittstelle korrespondiert mit der Datenschnittstelle (1). Über diese Datenschnittstelle werden Daten sowie Energie mit der mobilen informationsverarbeitenden Vorrichtung (MV1) bidirektional ausgetauscht.

The embodiment 1a consists of the following components:

• - Mobile Information Processing Device (MV1) This is the actual accessory.
• - Detection Sensor (ES) Depending on the indicator technology to be detected, at least one optical sensor (CCD, CMOS sensor, IR sensor, UV sensor, etc.) is used to acquire and process index data using OID technology; at least one electromagnetic RFID reading device is used for the acquisition and processing of index data with the RFID technology; at least one capacitive sensor is used for the acquisition and processing of index data with the capacitive technology.
• - Headphone Jack (KA) Seen as a minimum connectivity feature of the Mobile Information Processing Device (MV1).
• - Microphone (M) Viewed as a minimum input / read-in equipment of the mobile information processing device (MV1). With this microphone, sound recording is enabled, in particular, if the mobile information processing system (MC) itself has no sound recording capability.
• - Data interface ( 1 ) This detachable data interface corresponds to the data interface ( 22 ). Data and energy are exchanged bidirectionally with the mobile information processing system (MC) via this data interface.
• - Mobile Information Processing System (MC) This provides a small mobile preferably browser-enabled system with digital computer functionality including computer applications and data, with computing and control, storage (such as smart phone, personal digital assistant (PDA), mobile phones, tablet Computer, etc.), preferably wired and wireless computer connectivity, preferably with multimedia processing, input, input and output functionality.
• - Data interface ( 22 ) This data interface corresponds to the data interface ( 1 ). Data and energy are bidirectionally exchanged with the mobile information processing device (MV1) via this data interface.

Fig. 4

• – Lautsprecher-Abstand (LA1) Bei manchen mobilen informationsverarbeitenden Systemen (MC) sind die Lautsprecher unterhalb des Gerätes Angebracht. Damit die Audio-Ausgabe eines solchen Gerätes nicht beeinträchtigt, ist ein kleiner Abstand zwischen dem mobilen informationsverarbeitenden System (MC) und der mobilen informationsverarbeitenden Vorrichtung (MV1) erforderlich.

The 4 shows further components of embodiment 1a:

• - Loudspeaker distance (LA1) In some mobile information processing systems (MC), the loudspeakers are mounted underneath the device. In order that the audio output of such a device does not interfere, a small distance is required between the mobile information processing system (MC) and the mobile information processing device (MV1).

Fig. 5

• – Datenschnittstelle (DS1) Über diese Datenschnittstelle werden Daten sowie Energie mit einem weiteren Modul der mobilen informationsverarbeitenden Vorrichtung (MV2, 24) bidirektional ausgetauscht.
• – Befestigungsausnehmungen (11) Diese sind für die lösbare Befestigung des Moduls der mobilen informationsverarbeitenden Vorrichtung (MV2, 24) erforderlich.

The 5 shows further components of embodiment 1a:

• Data interface (DS1) Data and energy are connected to another module of the mobile information processing device (MV2) via this data interface. 24 ) exchanged bidirectionally.
• - fixing recesses ( 11 ) These are for the detachable attachment of the module of the mobile information processing device (MV2, 24 ) required.

Fig. 6-Fig. 10

The 6 - 10 show no further components of the embodiment 1a.

Fig. 11:

• – Mobile informationsverarbeitende Vorrichtung (MV1)
• – Erfassungssensor (ES)
• – Kopfhöreranschluss (KA)
• – Mikrofon (M)
• – Datenschnittstelle (1)
• – Mobiles Informationsverarbeitendes System (MC)
• – Datenschnittstelle (22)
• – Verbindungsvorrichtung (VV) Die mobile Verbindungsvorrichtung (VV) spielt die Rolle eines Adapters und kommt zum Einsatz, wenn die mobile informationsverarbeitende Vorrichtung (MV1) nicht unmittelbar an das mobile informationsverarbeitende System (MC) angeschlossen werden kann. Des Weiteren kommt die mobile Verbindungsvorrichtung (VV) als Erweiterung der Konnektivität zum Einsatz.
• – Datenschnittstelle (32) Über diese Datenschnittstelle werden Daten sowie Energie mit der mobilen informationsverarbeitenden Vorrichtung (MV1) bidirektional ausgetauscht.
• – Lautsprecherabstand-Ausnehmung (LA3) Diese weist eine solche Beschaffenheit auf, dass der Lautsprecher Abstand (LA1) im Falle der Nutzung der mobilen Verbindungsvorrichtung (VV) genau in diese Ausnehmung hinein passt.
• – Optional A/V-Out-Anschluss (AVA) Wird als eine optionale Konnektivitätausstattung der mobilen Verbindungsvorrichtung (VV) eingesehen.
• – Optional Datenschnittstelle (DS31) Wird als eine optionale Konnektivitätausstattung der mobilen Verbindungsvorrichtung (VV) eingesehen.
• – Connector (2) Ist vorzugsweise abnehmbar und ermöglicht die Verbindung der mobilen Verbindungsvorrichtung (VV) zum mobilen informationsverarbeitenden System (MC). Über diese Verbindung werden Daten sowie Energie mit dem mobilen informationsverarbeitenden System (MC) bidirektional ausgetauscht.
• – Lautsprecher-Abstand (LA2) Bei manchen mobilen informationsverarbeitenden Systemen (MC) sind die Lautsprecher unterhalb des Gerätes Angebracht. Damit die Audio-Ausgabe eines solchen Gerätes nicht beeinträchtigt, ist ein kleiner Abstand zwischen dem mobilen informationsverarbeitenden System (MC) und der mobilen Verbindungsvorrichtung (VV) erforderlich.
• – Connector-Schnittstelle (21) Diese korrespondiert mit der Datenschnittstelle (22). Über diese Verbindung werden Daten sowie Energie mit dem mobilen informationsverarbeitenden System (MC) bidirektional ausgetauscht.

The embodiment 1b consists of the following components:

• Mobile Information Processing Device (MV1)
• - Detection sensor (ES)
• - headphone jack (KA)
• - microphone (M)
• - Data interface ( 1 )
• - Mobile Information Processing System (MC)
• - Data interface ( 22 )
• - Connection device (VV) The mobile connection device (VV) plays the role of an adapter and is used when the mobile information processing device (MV1) can not be connected directly to the mobile information processing system (MC). Furthermore, the mobile connection device (VV) is used as an extension of the connectivity.
• - Data interface ( 32 ) Via this data interface, data and energy are bidirectionally exchanged with the mobile information processing device (MV1).
• - Loudspeaker distance recess (LA3) This has such a nature that the speaker distance (LA1) in the case of using the mobile connection device (VV) fits exactly into this recess.
• - Optional A / V Out (AVA) connector Viewed as an optional connectivity feature of the Mobile Connection Device (VV).
• - Optional Data Interface (DS31) Viewed as an optional connectivity feature of the Mobile Connection Device (VV).
• - Connector ( 2 ) Is preferably removable and allows the connection of the mobile connection device (VV) to the mobile information processing system (MC). Through this connection, data and energy are bidirectionally exchanged with the mobile information processing system (MC).
• - Loudspeaker distance (LA2) In some mobile information processing systems (MC), the loudspeakers are mounted underneath the device. In order that the audio output of such a device does not interfere, a small distance is required between the mobile information processing system (MC) and the mobile connection device (VV).
• - Connector interface ( 21 ) This corresponds to the data interface ( 22 ). Through this connection, data and energy are bidirectionally exchanged with the mobile information processing system (MC).

Fig. 12

• – Datenschnittstelle (33) Diese korrespondiert mit dem Connector (2).
• – Lautsprecher-Abstand (LA1)

The 12 shows further components of embodiment 1b:

• - Data interface ( 33 ) This corresponds to the connector ( 2 ).
• - Speaker distance (LA1)

Fig. 13

• – Datenschnittstelle (DS1)
• – Befestigungsausnehmungen (11)
• – Datenschnittstelle (DS3) Über diese Datenschnittstelle werden Daten sowie Energie mit einem optionalen Modul der mobilen Verbindungsvorrichtung (diese ist nicht dargestellt) bidirektional ausgetauscht.
• – Befestigungsausnehmungen (31) Diese sind für die lösbare Befestigung eines optionalen Moduls der mobilen Verbindungsvorrichtung (diese ist nicht dargestellt) erforderlich.

The 13 shows further components of embodiment 1b:

• - Data interface (DS1)
• - fixing recesses ( 11 )
• - Data interface (DS3) This data interface provides data and energy with an optional module of the mobile connection device (this is not shown) exchanged bidirectionally.
• - fixing recesses ( 31 These are required for the detachable attachment of an optional module of the mobile connection device (not shown).

Fig. 14-Fig. 18

The 14 - 18 show no further components of the embodiment 1b.

Fig. 19:

• – Mobile informationsverarbeitende Vorrichtung (MV1)
• – Erfassungssensor (ES)
• – Kopfhöreranschluss (KA)
• – Mikrofon (M)
• – Datenschnittstelle (1)
• – Mobiles Informationsverarbeitendes System (MC)
• – Datenschnittstelle (23) Manche mobilen informationsverarbeitenden Systeme (MC) weisen keine Datenschnittstelle unterhalb des Gehäuses auf, an die man die mobile informationsverarbeitende Vorrichtung (MV1) oder optional die mobile Verbindungsvorrichtung (VV) unmittelbar anschließen könnte, vielmehr weisen solche mobilen informationsverarbeitenden Systeme (MC) ihre Datenschnittstellen seitlich auf. Über diese Datenschnittstelle werden Daten sowie Energie mit der mobilen Verbindungsvorrichtung (VV) oder mit der mobilen informationsverarbeitenden Vorrichtung (MV1) bidirektional ausgetauscht.
• – Datenkabel (DK) Dieses Datenkabel verbindet die Datenschnittstelle (23) mit der mobilen Verbindungsvorrichtung (VV) oder mit der mobilen informationsverarbeitenden Vorrichtung (MV1) zum bidirektionalen Datenaustausch.
• – Verbindungsvorrichtung (VV)
• – Datenschnittstelle (32)
• – Lautsprecherabstand-Ausnehmung (LA3)
• – Optional A/V-Out-Anschluss (AVA)
• – Optional Datenschnittstelle (DS31)
• – Aufnahmevorrichtung (AV) Manche mobilen informationsverarbeitenden Systeme (MC) weisen keine Datenschnittstelle unterhalb des Gehäuses auf, an die man die mobile informationsverarbeitende Vorrichtung (MV1) mit oder ohne der optionalen mobilen Verbindungsvorrichtung (VV) unmittelbar anschließen könnte. Damit unterschiedliche Modelle der mobilen informationsverarbeitenden Systeme (MC) an die mobile informationsverarbeitende Vorrichtung (MV1) mit oder ohne der optionalen mobilen Verbindungsvorrichtung (VV) angeschlossen werden und mit diesen eine integrierte mobile Einheit bilden können, kommt eine Aufnahmevorrichtung (AV) für das entsprechende Modell des mobilen informationsverarbeitenden Systems (MC) zum Einsatz.
• – Ausnehmung (2222) Manche mobilen informationsverarbeitenden Systeme (MC) weisen zwar eine Datenschnittstelle unterhalb des Gehäuses auf, diese weist allerdings eine solche Beschaffenheit auf, dass die man die mobile informationsverarbeitende Vorrichtung (MV1) mit oder ohne der optionalen mobilen Verbindungsvorrichtung (VV) nicht mit einer erforderlichen mechanischen Stabilität unmittelbar anschließen könnte. Damit unterschiedliche Modelle der mobilen informationsverarbeitenden Systeme (MC) an die mobile informationsverarbeitende Vorrichtung (MV1) mit oder ohne der optionalen mobilen Verbindungsvorrichtung (VV) angeschlossen werden und mit diesen eine integrierte mobile Einheit bilden können, kommt eine Aufnahmevorrichtung (AV) für das entsprechende Modell des mobilen informationsverarbeitenden Systems (MC) zum Einsatz. Damit die Datenschnittstelle (52, 20) die Datenschnittstelle (211, 20) erreichen kann, kommt die Ausnehmung (2222) zum Einsatz. Diese weist eine solche Beschaffenheit auf, dass der Lautsprecher-Abstand (LA1, 20) dadurch passt.
• – Verbindungsplättchen (VP) Dient der stabilen mechanischen Befestigung der Aufnahmevorrichtung (AV) mit der mobilen Verbindungsvorrichtung (VV). Falls die Aufnahmevorrichtung (AV) separat mit dem mobilen informationsverarbeitenden System (MC) verwendet wird und der Anschluss an die mobile Verbindungsvorrichtung (VV) nicht erforderlich ist, so wird das Verbindungsplättchen (VP) an der Rückwand der Aufnahmevorrichtung (AV) versetzt so lösbar an den entsprechenden angebracht, dass die kanten des Verbindungsplättchens (VP) nirgends herausragen. Zum Anschluss an die mobile Verbindungsvorrichtung (VV) wird das Verbindungsplättchen (VP) versetzt an der Rückwand der Aufnahmevorrichtung (AV) lösbar an den entsprechenden Stellen so angebracht, dass die untere Kante mit den Befestigungsnoppen (4) zum Befestigen an die mobile Verbindungsvorrichtung herausragt.
• – Befestigungsnoppen (4) Diese korrespondieren mit den dienen der Befestigungsausnehmungen (11) bzw. (31) und ermöglichen die Befestigung des Verbindungsplättchens (VP) mit der mobilen Verbindungsvorrichtung (VV) und der Rückwand der Aufnahmevorrichtung (AV)
• – Schnittstellen-Loch (44) Dadurch wird der Zugang zur Datenschnittstelle (DS3) ermöglicht und nicht durch Verbindungsplättchen (VP) verdeckt.

The embodiment 1c consists of the following components:

• Mobile Information Processing Device (MV1)
• - Detection sensor (ES)
• - headphone jack (KA)
• - microphone (M)
• - Data interface ( 1 )
• - Mobile Information Processing System (MC)
• - Data interface ( 23 Some mobile information processing systems (MC) have no data interface underneath the housing to which the mobile information processing device (MV1) or optionally the mobile connection device (VV) could be connected directly, rather such mobile information processing systems (MC) have their data interfaces laterally on. Data and energy are bidirectionally exchanged via this data interface with the mobile connection device (VV) or with the mobile information processing device (MV1).
• - Data cable (DK) This data cable connects the data interface ( 23 ) with the mobile connection device (VV) or with the mobile information processing device (MV1) for bidirectional data exchange.
• - Connection device (VV)
• - Data interface ( 32 )
• - Loudspeaker distance recess (LA3)
• - Optional A / V Out connector (AVA)
• - Optional data interface (DS31)
• Recording device (AV) Some mobile information processing systems (MC) have no data interface underneath the housing to which the mobile information processing device (MV1) could be connected directly with or without the optional mobile connection device (VV). In order to connect different models of the mobile information processing systems (MC) to the mobile information processing device (MV1) with or without the optional mobile connection device (VV) and to form an integrated mobile unit with them, a receiving device (AV) is provided for the corresponding model of the mobile information processing system (MC).
• - recess ( 2222 Although some mobile information processing systems (MC) have a data interface underneath the housing, it has such a nature that the mobile information processing device (MV1) with or without the optional mobile connection device (VV) is not provided with a required mechanical interface Stability could connect immediately. In order to connect different models of the mobile information processing systems (MC) to the mobile information processing device (MV1) with or without the optional mobile connection device (VV) and to form an integrated mobile unit with them, a receiving device (AV) is provided for the corresponding model of the mobile information processing system (MC). So that the data interface ( 52 . 20 ) the data interface ( 211 . 20 ), the recess ( 2222 ) for use. This has such a nature that the speaker distance (LA1, 20 ) fits through it.
• - Connection plate (VP) Used for stable mechanical attachment of the receiving device (AV) with the mobile connection device (VV). If the recording device (AV) is used separately with the mobile information processing system (MC) and the connection to the mobile connection device (VV) is not required, the connection plate (VP) on the rear wall of the receiving device (AV) is so solvable attached to the appropriate that the edges of the connecting plate (VP) protrude nowhere. For connection to the mobile connection device (VV), the connecting plate (VP) is displaceably attached to the rear wall of the receiving device (AV) detachably in the appropriate places so that the lower edge with the fastening knobs ( 4 ) for attachment to the mobile connection device protrudes.
• - fastening studs ( 4 ) These correspond with the serve the Befestigungsausnehmungen ( 11 ) respectively. ( 31 ) and allow the attachment of the connection plate (VP) with the mobile connection device (VV) and the rear wall of the receiving device (AV)
• - Interface hole ( 44 ) This allows access to the data interface (DS3) and is not obscured by connection tiles (VP).

Fig. 20

The 20 shows no further components of the embodiment 1c.

Fig. 21:

• – Mobile informationsverarbeitende Vorrichtung (MV1)
• – Erfassungssensor (ES)
• – Kopfhöreranschluss (KA)
• – Mikrofon (M)
• – Datenschnittstelle (1)
• – Mobiles Informationsverarbeitendes System (MC)
• – Datenschnittstelle (211) Diese Datenschnittstelle korrespondiert mit der Datenschnittstelle (52). Über diese Datenschnittstelle werden Daten sowie Energie mit der mobilen informationsverarbeitenden Vorrichtung (MV1) bidirektional ausgetauscht.
• – Verbindungsvorrichtung (VV)
• – Datenschnittstelle (32)
• – Lautsprecherabstand-Ausnehmung (LA3)
• – Optional A/V-Out-Anschluss (AVA)
• – Optional Datenschnittstelle (DS31)
• – Connector (2)
• – Lautsprecher-Abstand (LA1)
• – Connector-Schnittstelle (52) Diese Datenschnittstelle korrespondiert mit der Datenschnittstelle (211). Über diese Datenschnittstelle werden Daten sowie Energie mit dem mobilen informationsverarbeitenden System (MC) bidirektional ausgetauscht
• – Aufnahmevorrichtung (AV)
• – Ausnehmung (2222)
• – Verbindungsplättchen (VP)
• – Befestigungsnoppen (4)
• – Schnittstellen-Loch (44)

The embodiment 1d consists of the following components:

• Mobile Information Processing Device (MV1)
• - Detection sensor (ES)
• - headphone jack (KA)
• - microphone (M)
• - Data interface ( 1 )
• - Mobile Information Processing System (MC)
• - Data interface ( 211 ) This data interface corresponds to the data interface ( 52 ). Data and energy are bidirectionally exchanged with the mobile information processing device (MV1) via this data interface.
• - Connection device (VV)
• - Data interface ( 32 )
• - Loudspeaker distance recess (LA3)
• - Optional A / V Out connector (AVA)
• - Optional data interface (DS31)
• - Connector ( 2 )
• - Speaker distance (LA1)
• - Connector interface ( 52 ) This data interface corresponds to the data interface ( 211 ). Data and energy are exchanged bidirectionally with the mobile information processing system (MC) via this data interface
• - Recording device (AV)
• - recess ( 2222 )
• - Connection tiles (VP)
• - fastening studs ( 4 )
• - Interface hole ( 44 )

Fig. 22

The 22 shows no further components of the embodiment 1d.

Explanation of Fig. 1 in the embodiment 1:

In the optical objects CP1, CP2, ... CPn, the graphical indicators are attached using the OID technology in the relevant places (for example, invisibly integrated in an image object or visibly displayed next to a text module) of an educational game in such a way that the Function, condition, appearance and perception of the image and text modules are not affected.

In order to determine how the indicators are applied, the functions F1, F2, ... Fk must be activated. This can be optically realized as with the objects CP1, CP2, ... CPn, ie the functions represent optical symbols in which the function indicators are integrated, these must be activated by the user. In a second alternative, the functions are optical symbols in which function indicators are integrated, but the activation is also encrypted in these visual indicators and does not need to be extra activated by the user. In a third alternative, the functions are computer commands in the mobile information processing system (MC, 3 ) and must be activated by such commands. In the following the first and the second alternative is considered, whereby first a corresponding function is activated: z. B. Calling multimedia information about a picture (indicator (CP1) is invisibly integrated in the picture at the game). As a second example of a function, the call of a website (the Internet address is displayed below a text module on a print medium visible and the indicator (CP2) is invisibly integrated in this Internet address) is shown. In this application example, the function "Calling an Internet address" is integrated in the indicator (CP2), ie this indicator not only stores the Internet address itself but also the action to call this Internet address immediately.

The following process steps are required to read out and process these indicators in the above-mentioned application:

First of all the activation of the function "call multimedia information":

• • Step (IE): Detection of the function indicator (F1): The possible functions are represented by the symbols F1-Fk). In this step, the user first activates the function (F1) "Calling multimedia information" by lightly touching with the detection sensor (ES, 3 ) on the function symbol (F1) on a medium carrier of the educational game. The optical sensor detects the reflected image pattern (F1) and converts into electrical information (DF1).
• • Step (ID) indicator determination: Using a Digital Signal Processor (DSP) or signal decoder, the digit code (F-ID1) corresponding to the converted indicator (DF1) is determined.
• • Step (IA) indicator application: The function "call of multimedia information" corresponding to the determined number code (F-ID1) is determined. Thereby a mapping takes place. The function "Call multimedia information" is activated. The system is now ready to use this feature.

Application of the "Calling Multimedia Information" function:

• Step (IE): acquisition of the information indicator (CP1): In this step, the image in the game, for which the user wants to receive multimedia information, is easily tapped. The IR LEDs irradiate a small area within the image, the optical sensor detects the reflected image pattern (CP1) of the indicator and converts to electrical information (DCP1).
• • Step (ID) indicator determination: Using a digital signal processor (DSP) or signal decoder, the digit code (I-ID1) corresponding to the converted indicator (DCP1) is now determined.
• • Step (IA) indicator application: The multimedia information (ID1-I) corresponding to the determined number code (I-ID1) is determined in accordance with the activated function "call of multimedia information". Thereby a mapping takes place.
• • Step (IO) Output: Here, the output control and the actual output of the information (ID1-I) determined in the previous step (IA) are performed using the multimedia output hardware. Imagine that the information obtained (ID1-I) represents a video sequence combined with sound and vibration (to clearly explain the meaning of the image in the educational game) and the corresponding multimedia hardware of the mobile information processing system (MC, 3 ).

Application example "Calling an Internet address":

• • Schritt (IE): Erfassung des Aktions-Indikators (CP2): In diesem Schritt wird die sichtbare URL durch den Anwender leicht angetippt. Die IR-LED bestrahlen eine kleine Fläche innerhalb des URL-Textes, der optische Sensor erfasst das reflektierte Bildmuster (CP2) des Indikators und wandelt in elektrische Information (DCP2) um.
• • Schritt (ID) Indikator-Ermittlung: Mithilfe eines Digital Signal Processors (DSP) bzw. Signal-Decoders wird nun die dem umgewandelten Indikator (DCP2) entsprechende Zifferncode (I-ID2) und (A-ID2) ermittelt.
• • Schritt (IA) Indikator-Anwendung: Die mit dem ermittelten Zifferncode (I-ID2) korrespondierende Information ((ID2-I), Internet-Adresse) und mit (A-ID2) korrespondierende Aktion (ID2-A) werden ermittelt. Dabei findet ein Mapping statt.
• • Schritt (IO) Ausgabe: Hier erfolgt die Steuerung der Ausgabe und die eigentliche Ausgabe der im vorigen Schritt (IA) ermittelten Information (ID2-I) und der Aktion (ID2-A) mithilfe der Browserfähigkeit des mobilen informationsverarbeitenden Systems (MC). Die in der sichtbare gedruckten unsichtbar verschlüsselte Internetadresse wird durch das mobile informationsverarbeitende System (MC) aufgerufen, der Anwender kann nun auf dieser Webseite „surfen” und ggf. weitere Informationen aufrufen.

In this application example, a URL (Internet address) is visible below a text module on a print medium and the indicator (CP2) is invisibly integrated in it. Since this is a printed Internet address, the action to be activated is so plausible to the user that it does not require the activation of a function.

• • Step (IE): Capture Action Indicator (CP2): In this step, the visible URL is easily tapped by the user. The IR LEDs illuminate a small area within the URL text, the optical sensor detects the reflected image pattern (CP2) of the indicator and converts to electrical information (DCP2).
• • Step (ID) Indicator Detection: Using a Digital Signal Processor (DSP) or Signal Decoder, the numeric code (I-ID2) and (A-ID2) corresponding to the converted indicator (DCP2) is determined.
• Step (IA) indicator application: The information ((ID2-I), Internet address) corresponding to the determined number code (I-ID2) and action (ID2-A) corresponding to (A-ID2) are determined. Thereby a mapping takes place.
• Step (IO) output: Here, the control of the output and the actual output of the information (ID2-I) and the action (ID2-A) determined in the previous step (IA) are carried out by means of the browser capability of the mobile information processing system (MC). The invisible encrypted Internet address printed in the visible is called by the mobile information processing system (MC), the user can now surf on this website and, if necessary, call up further information.

Fig. 2:

This shows in a 2D representation the process coverage and the other features through the components of the embodiment 1. Since the mobile information processing device (MV1, 3 ) in this embodiment merely as a supplement / enhancement of a mobile information processing system (MC, 3 ), the mobile information processing device (MV1, 3 ) in particular the process steps and has only the features which are not typical for a mobile information processing system (MC, 3 ) counting. The mobile information processing systems (MC, 3 ) are in any case unable to record and identify the indicators. These process steps will in any case be processed by the mobile information processing device (MV1, 3 ). The process steps of the indicator application, the output of the information as well as the triggering of the actions are handled by the mobile information processing system (MC, 3 ).

In addition, the mobile information processing device (MV1, 3 ) Features that make sense in this version as minimal equipment. These include: a microphone (M, 3 ); an optional on / off control; at least one data in / out ( 1 . 3 ); optional rechargeable energy source.

The mobile information processing system has other typical features such as: an input / output input; an optional microphone; various input / read devices (keyboard, memory card slots, touch-screen input, etc.); various data interfaces; Power supply; Web browser; various application programs.

In the embodiments 1a-1d ( 11 - 22 ) is additionally a connection device (VV, 3 ) used. This optionally has the following Features on: optional memory card slots; at least one data in / out interface; optional wireless data interface; optional A / V out interface; optional headphone output; an optional rechargeable power source.

Embodiment 2, in particular as a mobile information system as an independent modular information processing system.

An advantageous example of embodiment 2 is based on 23 to 27 explained, which show:

23 2D representation of the process coverage as well as the other features through the components of execution 2

24 3D exploded view and components of version 2 with a connecting device, receiving device and a data cable (front)

25 3D exploded view of the assembled components of the embodiment 2 with a connecting device, receiving device and a data cable (front side)

26 3D exploded view and components of version 2 with a connection device, receiving device and a connector (back)

27 3D exploded view of the assembled components of the embodiment 2 with a connecting device, receiving device and a connector (back)

The mode of operation and the nature of individual components of embodiment 1 are described in more detail below on the basis of the realization of the indicators by means of the OID technology as well as on the basis of various application examples:

Fig. 24:

• – Mobile informationsverarbeitende Vorrichtung (MV1)
• – Modul der mobilen informationsverarbeitenden Vorrichtung (MV2) Während die mobile informationsverarbeitende Vorrichtung (MV1) im Wesentlichen die Aufgabe der Indikator-Erfassung und Indikator-Ermittlung sowie minimale Zusatzfeatures aufweist, erweitert das Modul der mobilen informationsverarbeitenden Vorrichtung (MV2) sowohl den Prozessabdeckungsgrad als auch die zusätzlichen Features.
• – Erfassungssensor (ES)
• – Kopfhöreranschluss (KA)
• – Mikrofon (M)
• – Datenschnittstelle (1)
• – Datenschnittstelle (DS21) Diese wird als eine optionale Konnektivitätausstattung des Moduls der mobilen informationsverarbeitenden Vorrichtung (MV2) eingesehen.
• – Mobiles Informationsverarbeitendes System (MC)
• – Datenschnittstelle (23)
• – Datenkabel (DK)
• – Verbindungsvorrichtung (VV)
• – Datenschnittstelle (32)
• – Lautsprecherabstand-Ausnehmung (LA3)
• – Optional A/V-Out-Anschluss (AVA)
• – Optional Datenschnittstelle (DS31)
• – Aufnahmevorrichtung (AV)
• – Ausnehmung (2222)
• – Verbindungsplättchen (VP)
• – Befestigungsnoppen (4)
• – Schnittstellen-Loch (44)

The embodiment 2a consists of the following components:

• Mobile Information Processing Device (MV1)
• Mobile Information Processing Device (MV2) Module While the mobile information processing device (MV1) has essentially the task of indicator detection and indicator detection as well as minimal additional features, the module of the mobile information processing device (MV2) extends both the process coverage level and the additional features.
• - Detection sensor (ES)
• - headphone jack (KA)
• - microphone (M)
• - Data interface ( 1 )
• Data Interface (DS21) This is viewed as an optional connectivity feature of the Mobile Information Processing Device (MV2) module.
• - Mobile Information Processing System (MC)
• - Data interface ( 23 )
• - Data cable (DK)
• - Connection device (VV)
• - Data interface ( 32 )
• - Loudspeaker distance recess (LA3)
• - Optional A / V Out connector (AVA)
• - Optional data interface (DS31)
• - Recording device (AV)
• - recess ( 2222 )
• - Connection tiles (VP)
• - fastening studs ( 4 )
• - Interface hole ( 44 )

Fig. 25

The 22 shows no further components of the embodiment 2a.

Fig. 26:

• – Mobile informationsverarbeitende Vorrichtung (MV1)
• – Modul der mobilen informationsverarbeitenden Vorrichtung (MV2)
• – Erfassungssensor (ES)
• – Kopfhöreranschluss (KA)
• – Datenschnittstelle (111) Diese korrespondiert mit dem Connector (2).
• – Lautsprecher (IS)
• – Datenschnittstelle (DS21)
• – Mobiles Informationsverarbeitendes System (MC)
• – Connector (2)
• – Lautsprecher-Abstand (LA2)
• – Connector-Schnittstelle (52)

The embodiment 2b consists of the following components:

• Mobile Information Processing Device (MV1)
• Module Mobile Information Processing Device (MV2)
• - Detection sensor (ES)
• - headphone jack (KA)
• - Data interface ( 111 ) This corresponds to the connector ( 2 ).
• - Loudspeaker (IS)
• - Data interface (DS21)
• - Mobile Information Processing System (MC)
• - Connector ( 2 )
• - Speaker distance (LA2)
• - Connector interface ( 52 )

Fig. 27

The 27 shows no further components of the embodiment 2b.

Explanation of Fig. 1 in the embodiment 2:

In the optical objects CP1, CP2, ... CPn, the graphical indicators are attached using the OID technology in the relevant places (for example, invisibly integrated in an image or visibly displayed next to a text module) of an educational game in such a way that the function of Nature, Appearance and the perception of the image and text modules of the print medium are not affected.

In order to determine how the indicators are applied, the functions F1, F2, ... Fk must be activated. This can be optically realized as with the objects CP1, CP2, ... CPn, ie the functions represent optical symbols in which the function indicators are integrated, these must be activated by the user. In a second alternative, the functions are optical symbols in which function indicators are integrated, but the activation is also encrypted in these visual indicators and does not need to be extra activated by the user. In a third alternative, the functions are as computer commands in the mobile information processing device (MV1, 24 ) and optionally in the mobile information processing system (MC, 24 ) and must be activated by such commands. In the following the first and the second alternative is considered, whereby first a corresponding function is activated on the print medium: z. B. Calling multimedia information to an image (indicator (CP1) is invisibly integrated in the image in the learning game). As a second example of a function, the call of a website (the Internet address is displayed below a text module on the print medium visible and the indicator (CP2) is invisibly integrated in this Internet address) shown. In this application example, the function "Calling an Internet address" is integrated in the indicator (CP2), ie this indicator not only stores the Internet address itself but also the action to call this Internet address immediately.

The following process steps are required to read out and process these indicators in the above-mentioned application:

First of all the activation of the function "call multimedia information":

• • Step (IE): Detection of the function indicator (F1): The possible functions are mapped in the learning game using the symbols F1-Fk). In this step, the user first activates the function (F1) "Calling multimedia information" by lightly touching with the detection sensor (ES, 24 ) on the function symbol (F1). The optical sensor detects the reflected image pattern (F1) and converts into electrical information (DF1).
• • Step (ID) indicator determination: Using a Digital Signal Processor (DSP) or signal decoder, the digit code (F-ID1) corresponding to the converted indicator (DF1) is determined.
• • Step (IA) indicator application: The function "call of multimedia information" corresponding to the determined number code (F-ID1) is determined in the mobile information processing device (MV1) and in the module of the mobile information processing device (MV2). Thereby a mapping takes place. The function "Call multimedia information" is activated. The system is now ready to use this feature.

Application of the "Calling Multimedia Information" function:

• Step (IE): acquisition of the information indicator (CP1): In this step, the image for which the user wants to obtain multimedia information is easily tapped. The IR LEDs irradiate a small area within the image, the optical sensor detects the reflected image pattern (CP1) of the indicator and converts to electrical information (DCP1).
• • Step (ID) indicator determination: Using a digital signal processor (DSP) or signal decoder, the digit code (I-ID1) corresponding to the converted indicator (DCP1) is now determined.
• • Step (IA) indicator application: The multimedia information (ID1-I) corresponding to the determined number code (I-ID1) is stored in the mobile information processing device (MV1) and in the module of the mobile information processing device (MV2) according to the activated function "call of multimedia information". determined. Thereby a mapping takes place.
• • Step (IO) Output: Here, the output control and the actual output of the information (ID1-I) determined in the previous step (IA) are performed using the multimedia output hardware. Imagine that the information obtained (ID1-I) represents an audio file combined with vibration and is transmitted via the appropriate multimedia hardware (LS, 26 ) of the module of the mobile information processing device (MV2).

Application example "Calling an Internet address":

• • Schritt (IE): Erfassung des Aktions-Indikators (CP2): In diesem Schritt wird die sichtbare URL durch den Anwender leicht angetippt. Die IR-LED bestrahlen eine kleine Fläche innerhalb des URL-Textes, der optische Sensor erfasst das reflektierte Bildmuster (CP2) des Indikators und wandelt in elektrische Information (DCP2) um.
• • Schritt (ID) Indikator-Ermittlung: Mithilfe eines Digital Signal Processors (DSP) bzw. Signal-Decoders wird nun die dem umgewandelten Indikator (DCP2) entsprechende Zifferncode (I-ID2) und (A-ID2) ermittelt.
• • Schritt (IA) Indikator-Anwendung: Die mit dem ermittelten Zifferncode (I-ID2) korrespondierende Information (ID2-I), Internet-Adresse) und mit (A-ID2) korrespondierende Aktion (ID2-A) werden ermittelt. Dabei findet ein Mapping statt.
• • Schritt (IO) Ausgabe: Hier erfolgt die Steuerung der Ausgabe und die eigentliche Ausgabe der im vorigen Schritt (IA) ermittelten Information (ID2-I) und der Aktion (ID2-A) mithilfe der Browserfähigkeit des mobilen informationsverarbeitenden Systems (MC). Die in der sichtbare gedruckten unsichtbar verschlüsselte Internetadresse wird durch das mobile informationsverarbeitende System (MC) aufgerufen, der Anwender kann nun auf dieser Webseite „surfen” und ggf. weitere Informationen aufrufen.

In this application example, a URL (Internet address) is visible below a text module on the print medium and the indicator (CP2) is invisibly integrated into it. Since this is a printed Internet address, the action to be activated is so plausible to the user that it does not require the activation of a function.

• • Step (IE): Capture Action Indicator (CP2): In this step, the visible URL is easily tapped by the user. The IR LEDs illuminate a small area within the URL text, the optical sensor detects the reflected image pattern (CP2) of the indicator and converts to electrical information (DCP2).
• • Step (ID) Indicator Detection: Using a Digital Signal Processor (DSP) or Signal Decoder, the numeric code (I-ID2) and (A-ID2) corresponding to the converted indicator (DCP2) is determined.
• • Step (IA) indicator application: The information (ID2-I), Internet address) corresponding to the determined digit code (I-ID2) and action (ID2-A) corresponding to (A-ID2) are determined. Thereby a mapping takes place.
• Step (IO) output: Here, the control of the output and the actual output of the information (ID2-I) and the action (ID2-A) determined in the previous step (IA) are carried out by means of the browser capability of the mobile information processing system (MC). The invisible encrypted Internet address printed in the visible is called by the mobile information processing system (MC), the user can now surf on this website and, if necessary, call up further information.

Fig. 23:

This shows in a 2D representation the process coverage as well as the other features by the components of the embodiment 2. Since the mobile information processing device (MV1, 24 ) supplemented by the module of the mobile information processing device (MV2, 24 ) in this embodiment 2 as an independent modular information processing system information processing system (MC, 3 ), the mobile information processing device (MV1, 3 ) and the module of the mobile information processing device (MV2, 24 ) all process steps and have only some features on gaps (eg browser capability), which typically only for the equipment of a mobile information processing system (MC, 24 ) counting. cover the mobile information processing device (MV1, 3 ) and the module of the mobile information processing device (MV2, 24 ) is certainly not in a position to ensure Internet access. This feature remains with the mobile information processing system (MC, 24 ) Reserved.

In addition, the mobile information processing device (MV1, 3 ) the module of the mobile information processing device (MV2, 24 ) Features that make sense in this version as minimal equipment. These include: a microphone (M, 24 ); an optional on / off control; Volume control; Other control inputs, at least one data in / out ( 1 . 24 ); optional rechargeable energy source.

The mobile information processing system has other typical features such as: an input / output input; an optional microphone; various input / read devices (keyboard, memory card slots, touch-screen input, etc.); various data interfaces; Power supply; Web browser; various application programs.

In versions 2 ( 24 - 27 ) is additionally a connection device (VV, 24 ) used. It optionally has the following features: optional memory card slots; at least one data in / out interface; optional wireless data interface; optional A / V out interface; optional headphone output; an optional rechargeable power source.

Claims (14)

Information system for the collection, processing and use of indicators, characterized in that a mobile information system for static and dynamic, non-contact and contacting detection, processing, application of indicators and multimedia output and activation of the corresponding information with the indicators and the actions of a mobile information processing Device (MV1, 3 ), an information processing system (MC, 3 ) and the corresponding computer applications for controlling the functions of the mobile information processing device (MV1, 3 ) and the mobile information processing system (MC, 3 ), wherein the mobile information processing device (MV1, 3 ) as a supplementary device a detachable wired and wireless connection to a mobile information processing system (MC, 3 ) and a mobile handy integrated unit with the mobile information processing system (MC, 3 ), wherein the mobile information processing device (MV1, 3 ) is modular and the extension of its own functionality using another module (MV2, 24 ). Information system for the collection, processing and application of indicators according to claim 1, characterized in that the to be detected and processed indicators visible and are mounted invisibly on a carrier medium, wherein the nature of the carrier objects may be arbitrary; and preferably using the indicators as single- and multi-dimensional index data using the most common Auto-ID (automatic identification) technologies, mobile tagging, object identification such as Optical Identification (OID) technology, electromagnetic identification technology Waves (Radio-Frequency Identification, RFID) of capacitive technology are realized without being restricted precisely in these ways, wherein the mobile information-processing device (MV1, 3 ) is equipped with the detection devices corresponding to these indicators, depending on the indicator implementation technology to be detected, and wherein the mobile information processing device (MV1, 3 ) has at least one optical sensor (CCD, CMOS sensor, IR sensor, UV sensor, etc.), and wherein for the acquisition and processing of index data with the RFID technology, the mobile information processing device (MV1, 3 ) comprises at least one electromagnetic RFID reading device, and wherein for the acquisition and processing of index data with the capacitive technology the mobile information processing device (MV1, 3 ) has at least one capacitive sensor, without being limited precisely to the types mentioned. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing system (MV1, 3 ) a small mobile preferably browser-capable system with digital computer functionality including computer applications and data, with computing and control, storage device such as smartphones, personal digital assistant (PDA), mobile phones, tablet computers, etc., preferably wired and wireless bi-directional computer connectivity, preferably with multimedia processing, input, input and output functionality, without being limited to these systems. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 3 ) in one embodiment, a modular information processing system for indicator detection, indicator processing as an accessory / attachment (dongle) to the mobile information processing system (MC, 3 ), wherein the own computer and control unit comprises at least one indicator detection circuit; and wherein the own input functionality comprises at least one detection device and preferably input options for switching on and off; and wherein the own read-in functionality comprises at least one audio recording device (preferably a microphone); and wherein the own connectivity comprises at least one bidirectional connection possibility for data exchange, for energy supply as well as a headphone connection; and being connected to the mobile information processing system (MC, 3 ) its functionality for the application of indicators and multimedia output and activation of the information and actions corresponding to the indicators, its sound / image video recording functionality, multimedia functionality, input / output functionality, browser capability, connectivity and other infrastructure and functionality of the mobile information processing system used; and wherein the mobile information processing system (MC, 3 ) to at least provide the opportunity to collect and identify indicators, supplement and upgrade them. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 3 ) in a further embodiment, a modular auxiliary device / attachment (dongle) as a largely independent system with digital computer functionality incl. The computer applications and data for indicator detection, indicator processing, indicator application and multimedia output and activation of represents the information and actions corresponding to the indicators, the mobile information processing device (MV1, 3 ) about another module of the mobile information processing device (MV2, 24 ) can be added solvable; and wherein the own computer and control unit comprises at least one indicator detection circuit and an indicator application circuit (preferably calling and activating multimedia information, functions and actions corresponding to the indicators); and wherein the own memory system comprises at least one memory; and wherein the own input functionality comprises at least one detection device and preferably input options for switching on and off, for controlling the volume and at least one input option for function control (preferably 4 arrow input and an "OK"input); and wherein the own read-in functionality comprises at least one audio recording device (preferably a microphone); and wherein the own output comprises at least one audio output device (preferably a loudspeaker); and wherein the own connectivity at least one bidirectional connection option for data exchange, the Power supply, an audio / video out interface and a headphone jack; and being connected to the mobile information processing system (MC, 3 ) enhances own input, processing and output functionality, connectivity, interaction as well as energy management, expands and achieves browser capability. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 3 ) in one embodiment to the interface ( 22 . 3 ) of the mobile information processing system (MC, 3 ) via its own bidirectional data interface ( 1 . 3 ) is connected directly, this data interface ( 1 . 3 ) with the interface ( 22 . 3 ) of the mobile information processing system (MC, 3 ) corresponds. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 20 ) in another embodiment to the interface ( 23 . 20 ) of the mobile information processing system (MC, 20 ) via its own bidirectional data interface (DS1, 4 ) indirectly by means of data cable (DK, 20 ), this data interface (DS1, 4 ) with the interface ( 23 . 20 ) of the mobile information processing system (MC, 20 ) corresponds. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 11 ) in one embodiment to the interface ( 32 . 11 ) of the mobile information processing system (MC, 11 ) by means of a mobile connection device (VV, 11 ) is detachably connected directly, wherein the mobile connection device (VV, 11 ) preferably an adapter with a bidirectional data interface ( 32 . 11 ) and data interface ( 33 . 13 ), wherein the bidirectional data interface ( 33 . 13 ) of the connection device (VV, 13 ) with the releasably connectable connector ( 2 . 13 ) corresponds. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 20 ) in another embodiment to the interface ( 23 . 20 ) of the mobile information processing system (MC, 20 ) by means of a mobile connection device (VV, 20 ) detachable indirectly by means of data cable (DK, 20 ), wherein the mobile connection device (VV, 20 ) preferably an adapter with a bidirectional data interface (DS31, 20 ), wherein the bidirectional data interface (DS31, 20 ) of the connection device (VV, 20 ) with the interface ( 23 . 20 ) of the mobile information processing system (MV, 20 ) corresponds. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that in one embodiment an optional receiving device (AV, 19 ) for releasably receiving the mobile information processing system (MC, 19 ) to the mobile information processing device (MV1, 19 ) is releasably connected, wherein the receiving device (AV, 19 ) for accommodating different models of mobile information processing systems (MC, 19 ) and the connection with the mobile information processing device (MV1, 19 ). Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that in another embodiment an optional receiving device (AV, 19 ) for releasably receiving the mobile information processing system (MC, 19 ) to the connecting device (VV, 19 ) is releasably connected, wherein the receiving device (AV, 19 ) for accommodating different models of mobile information processing systems (MC, 19 ) and the connection with the mobile information processing device (MV1, 19 ) via a connecting device (VV, 19 ). Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 3 ) supports bi-directional energy flow, which in one embodiment, with the energy of the mobile information processing system (MC, 3 ) is supplied. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 3 ) in a further embodiment has its own power supply and bi-directional energy flow, which is preferably ensured by at least one rechargeable and preferably additionally by at least one regenerative source of electrical energy, wherein the own energy when not using the mobile information processing device (MV1, 3 ) also from the mobile information processing system (MC, 3 ) can be used; and conversely, the mobile information processing device (MV1, 3 ) the power supply of the mobile information processing system (MC, 3 ) in the absence of energy in its own power supply circuit can use. Information system for collecting, processing and using indicators according to one of the preceding claims, characterized in that the mobile information processing device (MV1, 24 ) as well as an optional module (MV2, 24 ) of the mobile information processing device (MV1) are such that connected to the mobile information processing system (MC, 24 ) does not affect its functions and operation.

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