WO2008003939A1 - Système de communication de données souterraines - Google Patents
Système de communication de données souterraines Download PDFInfo
- Publication number
- WO2008003939A1 WO2008003939A1 PCT/GB2007/002441 GB2007002441W WO2008003939A1 WO 2008003939 A1 WO2008003939 A1 WO 2008003939A1 GB 2007002441 W GB2007002441 W GB 2007002441W WO 2008003939 A1 WO2008003939 A1 WO 2008003939A1
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- WIPO (PCT)
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- transmitter
- receiver
- data
- signal
- information
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B13/00—Transmission systems characterised by the medium used for transmission, not provided for in groups H04B3/00 - H04B11/00
- H04B13/02—Transmission systems in which the medium consists of the earth or a large mass of water thereon, e.g. earth telegraphy
Definitions
- the present invention relates to the use of electromagnetic signals to provide low bit-rate telemetry data links with communication stations via an underground communications path.
- the plant element to be monitored may be underground beneath a busy urban main road accessible, if at all, only by manhole. In such a position, there may be no convenient vantage point to locate a conventional above ground radio antenna and to route its attendant feeder cable from the underground site to the antenna. Also, the overall cost of installation and subsequent maintenance are likely to be prohibitive. Furthermore, neighbourhood amenity interest groups are likely to oppose such installations, and local government planning departments may disallow them. Thus a less disruptive, invisible and lower cost solution to the monitoring problem is needed.
- a data communication system comprising a transmitter for transmitting data in a digitally modulated electromagnetic signal and a receiver for receiving the digitally modulated electromagnetic signal, wherein at least one of the transmitter and/or receiver is underground and has a magnetically coupled antenna.
- the magnetically coupled antenna may be electrically insulated.
- the frequency may be in the range of 100 Hz to 100 kHz.
- frequencies in the range of 1 kHz to 10 kHz will often be ideal.
- Figure 1 is a schematic diagram of a point-to-point underground communication link
- Figure 2 is a block diagram of a transmitter for use in the link of Figure 1
- Figure 3 is a block diagram of a receiver for use in the link of Figure 1 ;
- Figure 4 is a plot of power attenuation with respect to signal frequency for an electromagnetic signal propagating through three types of underground strata: wet clay, wet sandstone and dry sandstone, together with the comparable plot for impure fresh water;
- Figure 5 shows two signal propagation paths, one wholly through the ground and one partially through the ground and partially through air;
- Figure 6a represents a loop or coil antenna, which may have large diameter for use in the communications systems of Figures 1 and 5;
- Figure 6b represents another loop antenna in which a rod of high permeability material is introduced into the coil to form a solenoid of more compact form, and
- Figure 7 shows a configuration of multiple sites by which data may be transferred successively by multiple links in tandem to achieve greater distance or consume lower energy.
- the present invention relates to a data communication data link that is either wholly or partially underground. Because it is very different from air, the underground environment requires radically new methods of communication from those applicable for air propagation systems. This is primarily because underground geological strata and deposits exhibit much higher attenuation of the signal over distance. To overcome the problem of high attenuation, magnetic coupled antennas are used.
- Magnetic antennas formed by a wire loop, coil or similar arrangement, create both magnetic and electromagnetic fields. They launch a predominantly magnetic field that transitions to the characteristic impedance relationship between E and H components over an area known as the near field.
- the magnetic or magneto-inductive field is generally considered to comprise two components of different magnitude that, along with other factors, attenuate with distance (r) at rates including a factor proportional to 1/r 2 and 1/r 3 respectively. Together these are often termed the near field components.
- the electromagnetic field has a still different magnitude and, along with other factors, attenuates with distance at a rate including a factor proportional to 1/r. It is often termed the far field or propagating component.
- the far field is the area in which the electromagnetic transmission signal has transitioned to the characteristic impedance relationship between E and H components.
- the near field dominates at short distances, whereas the far field is relatively stronger at greater distances.
- Dependent on distance between the transmit antenna and the receive antenna either or both near and far field components may be used.
- Using a magnetic coupled antenna rather than an electrically coupled antenna reduces signal dissipation in the near field, but allows data transmission in the near and far fields.
- electrically insulated magnetically coupled antennas provides various advantages over the alternative of electrically coupled antennas.
- the relationship between the electric and magnetic field is determined by the characteristic or intrinsic impedance of the transmission medium.
- An electrically coupled antenna launches a predominantly electric field that transitions to the characteristic impedance over the near field.
- Underground attenuation is largely due to the effect of conduction on the electric field. Since electrically coupled antennas produce a higher E-field component in the near field the radiated signal experiences higher attenuation. The same performance issues apply to a receive antenna. Magnetically coupled antennas do not suffer from these problems and so are more efficient underground than electrically coupled antennas.
- Figure 1 shows an underground data communication system in which the invention is embodied. This is located in an underground manhole 1 that contains an element of equipment requiring to be monitored or controlled (not shown). Associated with the equipment being monitored and also underground is a digital communications module 2 that is connected to an antenna 3.
- the digital communications module 2 may be any one of a transmitter or receiver or transceiver.
- the antenna 3 may be a coil or loop of conducting wire. The shape of the coil is not critical but its area ideally should be maximised for greatest signal, especially when a low frequency signal is used.
- the coil may have its size limited by the space available but the best performance is usually achieved if the coil has as great an effective area as possible because this creates a large magnetic signal flux for transmitting and intercepts more flux for receiving, both of which increase the received signal or enable performance over longer distance.
- the coil may have a cross sectional area of greater than 0.2 metres squared. Multiple turns of one or both coils are usually beneficial because this also increases the signal flux created by a transmit coil antenna and the voltage induced in a receive coil antenna.
- the communications module 2 includes circuits and components of a generally conventional nature to generate and/or receive a carrier signal, usually of low frequency, and modulation to represent the data to be transmitted and/or demodulation to demodulate the signal received.
- a transmitter that is suitable for use in the communications module 2 is shown in Figure 2.
- This has a data interface 22 for receiving data that is to be transmitted. This may be connected to the equipment (not shown) that it is be monitored or controlled to provide a source of the necessary state/condition and/or control data.
- the data interface 26 is connected to each of a processor 24 and a modulator 26.
- the modulator 26 is provided to digitally encode data onto a carrier wave.
- a frequency synthesiser 28 that provides a local oscillator signal for up-conversion of the modulated carrier and a transmit amplifier 30, which is connected to an electrically insulated magnetic coupled antenna 18.
- the transmitter processor 24 is operable to cause digitally modulated electromagnetic communication signals to be transmitted via the antenna at a selected carrier frequency.
- the transmitter When data is to be transmitted to the remote site 4, the transmitter generates a signal with modulation representing data used to control or modify the state of the remote plant element. Where elementary control is adequate, modulation of the signal may be a simple on-off action to indicate state or condition or to command a state or condition.
- FIG. 3 shows an example of a receiver 14 for use in communications module 5.
- the antenna 6a, 6b is an electrically insulated magnetic antenna 20.
- a tuned filter 32 Connected to the antenna 20 is a tuned filter 32 that is in turn connected to a receive amplifier 34.
- a signal amplitude measurement module 36 At the output of the amplifier 34 is a signal amplitude measurement module 36 that is coupled to a de-modulator 38 and a frequency synthesiser 40, which provides a local oscillator signal for down conversion of the modulated carrier.
- a processor 42 and a data interface 44 Connected to the de-modulator 38 are a processor 42 and a data interface 44, which is also connected to the processor 42.
- the data interface 44 is provided for transferring data to control the state of a plant element (not shown).
- the receiver 5 may be connected to monitoring equipment (not shown) to display received information about the condition of the remote plant element.
- the communications module 2 is descried as having a transmitter and the communications module 5 is described as having a receiver both may be transceivers and so be operable as both a transmitter and receiver for monitoring and control, but usually at different times.
- Propagating EM signals that have lower frequencies have very significantly lower rates of attenuation for than higher frequency signals.
- very low frequency carrier signals are considered unattractive because they cannot in practice be used to convey modulated information of useful rates. This is not the case for the telemetry applications to which this invention can be applied, where very low information bit rates are adequate.
- the optimum frequency of operation is dependent on the situation and requirements (including strata, distance required, information bit-rate required, and any interfering signals), but will usually be in the region of 100 Hz to 100 kHz.
- the telemetry information to be conveyed is of a very elementary binary nature, for example the on/off condition of a valve or the true/false condition of a pressure sensor detecting the presence of a liquid and required only occasionally such as every 15 minutes, then the required information rate is very low.
- Such an application allows very low signal frequencies to be adopted with the advantage that greater distance can be achieved. For example, to benefit from the greatest distance at very low telemetry rates, frequencies in the range 1 to 10 kHz will often be ideal.
- the binary information bandwidth is also extremely low, in the order of 0.001 Hz for this example of binary state changes communicated only every 15 minutes (or 900 seconds).
- Such very low information rates allow very narrow bandwidth filtering to be applied to a received signal before the point in the receive system process where the state of the information carried by the signal is determined. Filtering to the minimum bandwidth possible is desirable to distinguish a weak wanted signal from amongst unavoidable attendant noise within the signal.
- Filtering may be applied by conventional means using filter circuits, albeit unusually narrow, applied to the carrier frequency before demodulation of the signal and noise.
- the demodulation process may be applied to the signal while still of significant bandwidth, and effective narrow filtering applied to the resultant demodulated information and attendant noise.
- One option involves encoding the binary state information carried by the signal as a very long binary signal or word of very many subsidiary bits, where the two binary states to be conveyed are distinguished by two different words of the same subsidiary bit-rate.
- the long word could potentially change to indicate an altered state every 900 seconds
- the subsidiary bits could be sent at a rate of 100 subsidiary bits/second, which together could provide words of 90,000 subsidiary bits in length.
- the two predetermined words may be pseudorandom binary words of known pattern, arranged so that their mutual cross-correlation function is , very close to zero; in other words they are as easily distinguishable as possible.
- Detecting which of the two possible words has been received is achieved by cross-correlating the demodulated but un-sliced signal with binary patterns representing both of the words, whereupon a decision is made as to which has been received by examining the two cross- correlation functions so derived. Correlation and associated methods will be familiar to those skilled in the art of digital communication, so no further implementation details need be given here.
- the signal bandwidth in this example is comparable to the 100 bits/second rate of the subsidiary bits, but the information bandwidth after correlation and binary decision is very much less. This markedly reduces the effect of unwanted noise and enables greater system distance and reliability to be achieved. As will be recognised, this principle could be extended readily to the use of more than two long words to represent and communicate more than two states.
- control and/or status data is captured from the equipment at site 1, digitally modulated onto a suitable carrier and and transmitted over path 7 to the antenna 6a, 6b at site 4, which may be a central station operable for monitoring the distant plant element.
- site 4 may be a central station operable in a mode to control the state of the distant plant element, in which case the direction of signal transmission path 7 is the reverse of that shown.
- Site 4 may be operable to fulfil both monitoring and controlling roles.
- the station at site 4 and its component elements may or may not be underground.
- the site 4 may include a substantial building and environs, in which case benefit may be derived from using an antenna of larger area than is possible in a manhole, for this will increase the level of signal which can be transmitted and/or received, or increase effective distance, or both.
- FIG. 5 shows a system that utilises an additional communication path 8 between transmitting antenna 3 and receiving antenna 6.
- part of its field will readily emanate above ground having suffered little attenuation over the short distance. From there, it is likely that the remaining attenuation of the ongoing path through the air to the receive antenna 6 will be significantly less than if the entire distance had been through the ground. Consequently, for transmit and/or receive antennas, which are relatively shallow under the ground, on the ground, or where one or other is above ground, greater communication distance can be achieved.
- Figure 6a shows an example antenna that can be used in any of the systems in which the invention is embodied.
- This has a magnetically coupled loop or coil of insulated conductor wire, usually of many turns.
- it is advantageously arranged to enclose as large an area as possible, for example greater than 0.2 metres squared.
- the coil could have 100 turns and a diameter of 1 m, but circumstances at its deployed site may allow only a lesser diameter.
- Figure 6b shows another antenna that can be used in any of the systems in which the invention is embodied.
- the ferrite core should be as large as practicable but, for typical core and coil proportions such as shown, the effectiveness of this arrangement is to increase the flux by about 50 to 100 times. Consequently, for a given performance, this arrangement allows a smaller antenna to be used.
- Figure 7 is another variation of the basic system of Figure 1. This has a number of sites 13, 14 and 15 that are linked for tandem communication to central site 4 by means of successive path links 16, 17 and 18.
- An arrangement like this material ly increases the total distance span over which monitoring or control can be achieved and/or enables lower transmit power to be used because the individual link distances are much reduced. It will be appreciated that the number of sites can vary as required, and that the depicted distances are for descriptive purposes and not necessarily to scale.
- site 13 transmits its data over link path 16 to site 14; site 14 then relays the same data (or a representation of it) over link path 17 to site 15; site 15 then relays the same data over link path 18 to the central site 4.
- Intermediate sites 14 and 15 may have their own data conveyed in similar manner but require fewer link paths.
- the data from each of multiple sites will require some form of distinguishing identification to be associated with it. This could be, for example, a recognisable feature of the digital encoding of the data such as a label or its temporal position in a predetermined polling sequence. Other identification techniques may be employed, such as different signal frequencies, multiple frequencies transmitted simultaneously or sequentially, or different modulation. Similarly, where the central site sends control commands to the remote sites, comparable identification is required so that the control data is recognised and implemented by the correct site. Whether or not a tandem arrangement similar to that depicted is used, identification of data destined for or originating from each site may be required if sites are within reception distance of data not intended for them.
- the central site can send query commands to remote sites which, when recognised, cause a remote site to respond with monitoring data indicating its condition.
- the commands could be sent in similar manner to those of Figure 5, but in the reverse direction.
- An advantage of this query and response arrangement is that transmission energy, which may be from batteries, is conserved at the remote sites because the transmitter only requires to consume energy for sending monitoring data when that information is known to be required.
- the query and response arrangement is not limited to the tandem deployment outlined, but may be used over one or more independent point-to-point links between a central site and remote sites.
- the monitoring site could be operable to send data only when a significant change occurs in the state of the equipment; which is of a type that has to be notified to the central site.
- the present invention provides numerous advantages over the prior art.
- the electromagnetic and magnetic techniques described herein allow operation of equipment underground to solve communication problems requiring relatively low information rates.
- communication equipment associated with the link can be co-located conveniently with any underground plant that is to be monitored or controlled. Accordingly, the installation is invisible to the public eye, of lower cost, and more robust and reliable than alternative methods.
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Abstract
La présente invention concerne un système de communication de données comprenant un transmetteur (2) pour transmettre des données dans un signal magnétique ou électromagnétique numériquement modulé et un récepteur (5) pour recevoir le signal magnétique ou électromagnétique numériquement modulé. Au moins le transmetteur ou le récepteur est placé sous terre et possède une antenne couplée au plan magnétique (3, 6a, 6b). De préférence, le transmetteur transmet des informations à un débit inférieur à 1000 bits par seconde et à une fréquence dans la plage de 1 à 10 kHz.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB0613081.9 | 2006-07-03 | ||
GB0613081A GB0613081D0 (en) | 2006-07-03 | 2006-07-03 | Underground data communications system |
Publications (1)
Publication Number | Publication Date |
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WO2008003939A1 true WO2008003939A1 (fr) | 2008-01-10 |
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ID=36888444
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/GB2007/002441 WO2008003939A1 (fr) | 2006-07-03 | 2007-06-29 | Système de communication de données souterraines |
Country Status (2)
Country | Link |
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GB (1) | GB0613081D0 (fr) |
WO (1) | WO2008003939A1 (fr) |
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