Communications: electrical – Condition responsive indicating system – Specific condition
Reexamination Certificate
2001-04-02
2004-11-16
Hofsass, Jeffery (Department: 2632)
Communications: electrical
Condition responsive indicating system
Specific condition
C340S572700, C340S870030, C340S010100
Reexamination Certificate
active
06819243
ABSTRACT:
The invention relates to a method for the identification of bulk goods, preferably the identification of roll-like bulk goods, in which method a radio frequency reader antenna is used to identify a radio frequency identification device arranged in the bulk goods.
The invention further relates to an apparatus for the identification of bulk goods, preferably the identification of roll-like bulk goods, the apparatus comprising a radio frequency reader and a radio frequency identification device arranged in the bulk goods.
Known systems for the identification of bulk goods use optical identification methods, such as a bar code or a printed number series. U.S. Pat. No. 4,463,251 discloses a method for the identification of paper rolls, based on optical reading of a code marked at the end of the roll by means of a laser beam, for example. However, optical methods require a sufficient level of illumination. Furthermore, tags are susceptible to getting dirty, being chafed and wear, resulting in impaired identification. Optical identification systems also require a direct and completely unobstructed visual contact between the object and the reader, preventing identification from every direction.
Radio frequency identification systems are also used in the identification of bulk goods, wherein an identification device including a code enabling individualization is arranged in the bulk goods to be identified, and the code included in the identification device is read with a special reader. Such identification systems are disclosed in PCT publications WO 99/50788 and WO 00/16286.
In radio frequency identification systems, data is transferred between an identification device and a reader wirelessly by means of electromagnetic waves. Antenna solutions, in both the identification device and the reader, are crucial to the performance of radio frequency identification systems. According to their operation frequency, these radio frequency identification systems are dividable into low frequency and high frequency systems. In low frequency systems, a magnetic field is used in the coupling between the identification device and the reader, and various loop solutions are used as antennas. in low frequency systems, the reading distance is short and the reading distance depends on the areas of the antenna coils and their mutual positions. In high frequency systems, an electric field is used in the coupling, and the antennas used are usually dipole, folded dipole or microstrip antennas. Out of these, dipole and folded dipole antennas are omnidirectional, whereas a microstrip antenna is directional. in high frequency systems, the identification device is either active or passive. Active identification devices comprise a radio transmitter and a battery, whereas passive systems use the energy obtained from the reader. In high frequency systems, the reading distance is longer than in low frequency systems.
As was mentioned above, antennas, which are used for data transfer between an identification device and a reader, are crucial to the performance of radio frequency identification systems. The strength of the coupling between the antennas is affected by the alignment between the antennas, the radiating properties of individual antennas and the distance between the antennas.
Known reader antennas in radio frequency identification systems use a non-directional or fixedly aligned radiation beam or the radiation beam is directed from one point. These systems do not efficiently utilize the properties of the antennas. The problem in a non-directional reader antenna is the loss of transmitted power in directions that are useless for identification. In fixedly directed reader antennas, the tag may be outside the radiation beam of the reader antenna or the object to be identified may be larger than the reading range of the reader antenna. If the radiation beam is directed from one point, the reflection of the radiation emitted from the antenna from the boundary surfaces of the object to be identified interferes with the identification. This reflection occurs particularly when the incidence angle of the radiation deviates a lot from the perpendicular of the boundary surface. Furthermore, the distance between the identification device attached to the object and the reader antenna increases particularly at the edges of the reading range. This increases and attenuates the distance traveled by the radiation in the medium more compared with perpendicular alignment. For example, in a passive system utilizing backscattering, well known to a person skilled in the art, doubling the reading distance increases the attenuation to 16-fold. Furthermore, the boundary surfaces of the mediums cause diffraction as the signal penetrates them at an angle different from that of the perpendicular of the surface. This is one of the reasons why reasonably priced radio frequency identification systems have not been used in the logistics of for example paper rolls.
In the identification of bulk goods, the position of the object to be identified cannot usually be determined or predicted; instead, the radiation maximum of the antenna of the identification device attached to the object may face away from the reader antenna or the polarization levels of the antennas may be perpendicular to each other. The distance between the antennas may also be long or there may be material through which the radio waves have to propagate.
The dipole and folded dipole antennas generally used in radio frequency identification devices are usually omnidirectional, i.e. they emit electromagnetic radiation in all directions. However, these antenna types have low amplification. Furthermore, the frequency bands used by radio frequency identification devices have an officially regulated highest permitted transmission power, i.e. directional antenna structures can be used for improving the transmission of an identification device, if required. The use of directional, i.e. amplifying antenna structures, such as a microstrip antenna or an antenna array, allows the electromagnetic radiation power transmitted by the antenna to be directed more efficiently in the desired direction. This improves the coupling between the identification device and the reader antennas in the direction of the maximum of the radiation beam of the directional antenna compared with omnidirectional antennas, whereas the coupling is weaker outside the radiation beam than with omnidirectional antennas.
Roll-like bulk goods, such as paper or cardboard rolls, have to be identified always when the roll is handled at a factory, warehouse, when loading a conveyer chain or at the warehouse of a printing house. A roll is identified in a controlled situation, wherein the position of the roll with respect to its cylinder axis is known, i.e. the roll is either in a vertical or in a horizontal position. As far as the antenna of the identification device is concerned, this means that the polarization plane of the antenna is known. In contrast, the position angle of the roll around the cylinder axis is not known. In other words, when the identification device to be arranged in the roll uses a directional antenna element, the direction of the maximum of the antenna radiation beam is not known. If an identification device arranged on the surface of the roll is used in this kind of a situation, in the worst case the identification device is on the opposite side of the roll and the direction of the radiation beam of the antenna of the identification device is opposite to the direction from which the reader makes the identification. This means that reliable identification is very unlikely in such a situation.
The object of the invention is to provide a method and an apparatus for avoiding the drawbacks of known solutions and for achieving simpler and better identification of bulk goods, preferably roll-like bulk goods, than previously.
The method of the invention is characterized in that the radiation midpoint of a directed radiation beam of the radio frequency/reader is moving and said midpoint is used for perpendicu
Keskilammi Mikko
Sydänheimo Lauri
Hofsass Jeffery
Ladas & Parry
Previl Daniel
LandOfFree
Method and apparatus for identifying bulk goods, preferably... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Method and apparatus for identifying bulk goods, preferably..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method and apparatus for identifying bulk goods, preferably... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3282911