JP2603074B2 - Zone configuration method - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a zone configuration method having a high frequency utilization rate in mobile communication.

(Prior Art) In a conventional land mobile communication system, zones are configured as shown in FIG. 2, for example. Reference numeral 1 denotes one of a plurality of zones covering a service area (also referred to as a wireless zone), and a wireless base station is provided at the center thereof. Each wireless zone is assigned a set of wireless channels having different frequencies from each other (referred to as a frequency group), and each wireless zone can provide a mobile communication service without mutual interference. In addition, by using the same frequency group in a zone where the distance between the zones does not interfere with each other, a scheme is devised to effectively use a limited frequency. FIG. 2 is an example of a frequency group arrangement method for effectively reusing the same frequency group. One unit including all frequency groups used is called a cluster.
In FIG. 2, the clusters are indicated by reference numeral 2 with hatching. In this figure, the cluster is an example composed of 13 wireless zones. That is, the wireless zones 1 to 13 in the cluster use different frequencies, and another cluster uses the same frequency group. By arranging the clusters without gaps, a service area is formed. The size of the cluster is determined on condition that interference between zones using the same frequency group is equal to or less than a specified value.

(Invention Problems to be Solved) used bandwidth f frequency band width or the number of channels may be used in one radio zone from utilizing split in each radio zone _B is required to form one cluster It is limited by the number of zones, that is, the number of frequency groups (N) (in the example of FIG. 1, N
= 13. In the conventional zone configuration method, each wireless zone has at most a number of channels corresponding to the band f _B / N, so the traffic volume limit of the zone is determined by the number of wireless channels determined from f _B and N. I was

In the present invention, a partial zone is newly provided in a zone for the purpose of increasing the traffic volume that can be handled in each zone beyond such a limit.

(Means for Solving the Problems) A feature of the present invention for achieving the above object is to define a frequency group to be used for each zone, and to repeat the frequency groups so that they do not interfere with each other and each zone. In a mobile communication system with a small zone configuration assigned to a sub-zone, a partial area is set in each zone that is less susceptible to interference from other zones, and reuses a frequency group without mutual interference with its own zone and other zones. That is to do.

As described above, since the partial area set in each zone reuses a frequency group without mutual interference, the used frequency band can be shared without dividing even when setting a new area, The frequency use efficiency is improved. In addition, since the partial region can be provided only in a portion having a high traffic density, the frequency use efficiency can be further improved at low cost.

Generally, in a cellular mobile communication system, a zone is made smaller in order to increase the capacity of a system. In this case, since the interference condition that has been satisfied by the frequency allocation up to that point is disrupted, the frequency of another zone must also be changed, which usually covers the entire service area. Such a change in frequency not only causes interruption of service, but also may cause a decrease in communication quality due to a change in interference conditions in some places, and has a very large effect on communication carriers and users.

However, according to the present invention, since the partial area set in each zone reuses a frequency group without mutual interference, it is possible to maintain the interference condition that has been satisfied by the previous frequency arrangement, It does not affect the frequency allocation of the zone. In addition, since a partial area can be provided by sufficiently examining interference conditions in advance, the capacity of a specific part can be increased without affecting existing services.

The partial area that is less susceptible to interference from other zones, for example, by installing a base station antenna at a position lower than the surrounding buildings, or almost perpendicular to the direction of the base station in other zones using the same frequency group It is obtained by making the road in the direction a service area. This partial area is not limited to a specific area, because if the size is sufficiently small and the transmission power is suppressed, mutual interference with other existing zones becomes negligibly small. Obviously, it can be set anywhere. Therefore, since this partial region can be set in any portion having a high traffic density, the frequency use efficiency can be improved regardless of environmental conditions.

(Embodiment) FIG. 1 shows an embodiment of the present invention, where 3, 3 ', 3 "are radio base stations, 4 is a zone including a partial zone according to the present invention, and 5, 6 are the same as the partial zones 7, 8. Zone using frequency group, 7
Is an area in the zone 4 where the interference from the radio base station 3 'is within the allowable value, 8 is an area in the zone 4 where the interference from the radio base station 3 "is within the allowable value, and 9 is an area 7, 8 The small radio base station 9 is provided within the area 7 or 8 or a part thereof as a service area.

The amount of interference from another zone using the same frequency group differs depending on the location in zone 4. For example, in terms of the terrain, depressions and roads in a group of buildings that are high as a feature are hardly affected by interference, and conversely, interference is likely to be caused in a place higher than the surroundings or a place with a low building height. In one zone, there are areas where these interferences are likely to be received and areas where they are not easily received.

In the conventional zone configuration method, an inter-zone distance using the same frequency group is determined on the condition that the location ratio where the amount of interference exceeds a specified value within a zone is within a specified value (eg, 1% or less). I have. In this case, it is clear that the interference amount is lower than the specified value in the area where there are depressions and tall buildings. In other words, in a zone configuration configured by the conventional method, in a depression or the like, even if a frequency group used in a zone closer to other zones using the same frequency group is reused, interference will not occur. No problem. Therefore, if such a depression or the like is newly used as a partial zone, the call volume that can be handled by a small zone including the partial zone can be increased, and the frequency use efficiency is improved.

FIG. 1 shows a method of forming a partial zone. In the zone 4, the area where the interference amount is equal to or less than the specified value with respect to the frequency group of the zone 5 is 7, and a partial zone may be formed in the area. On the other hand, for the frequency group of zone 6, since the propagation condition is different from that of zone 5,
In a case different from the region 7, a region where the amount of interference is equal to or less than a specified value is obtained. This is set to 8. Region groups such as 7, 8 are given as many as the number N of frequency groups.
A considerable area can be filled in the small zone 4.

As a method of forming a partial zone, an antenna is provided on a steel tower like a conventional radio base station, and a fan-shaped beam is radiated or the radiated beam is directed downward, thereby causing interference in zone 5 or 6. Although a method of not giving it is possible under special terrain feature conditions, the following two zone construction methods are proposed as generally usable methods.

In the first method, the base station is placed on a road or the like, and its antenna height is set lower than the surrounding buildings. The service area (partial zone) is formed around a road on which an antenna is placed. In this case, since the building becomes a shield, the radio wave is rapidly attenuated outside the service area, so that interference with other zones is extremely small. The other zones 5 and 6 that use the frequency group to be reused in the present invention are closer to zone 4 than other zones that use the same frequency group as zone 4, so that
Even if the amount of interference with the mobile stations in the partial zones 7, 8 from the base stations 3 ', 3 "of the local zones 5, 6 is small, the mobile stations in the other zones 5, 6 can be transmitted from the base station 9 in the partial zones 7, 8 If the amount of interference is large, there is a problem, but if the antenna height is low as described above, this problem can be solved.

When a base zone using a low antenna height forms a partial zone centered on one road, radio waves propagate with little attenuation in the direction of the road, but the building becomes a wall in the direction perpendicular to the road Decays very quickly due to the effect. Therefore, in the case of forming a partial zone as a second method, if the base station antenna is installed on a road substantially perpendicular to another zone (5 or 6) using the same frequency group, the amount of interference can be greatly suppressed. , And frequency sharing with a closer zone becomes possible.
This can be said to be a condition obtained by adding conditions to the first method.

(Effects of the Invention) As described above, by applying the zone configuration method of the present invention, the traffic volume that can be handled between zones can be increased as compared with the conventional zone configuration method, and the frequency utilization efficiency is improved. An advantage of the present invention is that the present invention can be applied to a mobile communication system in which services are already provided by a conventional zone configuration method. If the present invention is applied to an area with a large traffic volume,
It is possible to promptly cope with an increase in traffic without changing the zone configuration or frequency arrangement of the entire system.

The present invention is particularly effective for a mobile phone system. In a mobile phone, the frequency of channel switching during a call increases as the size of the partial zone decreases, but this is not a problem in a mobile phone with a low moving speed.

[Brief description of the drawings]

FIG. 1 shows a zone configuration method of the present invention, and FIG. 2 shows a conventional zone configuration method. 1 ... zone, 2 ... cluster, 3, 3 ', 3 "... radio base station, 4 ... own zone, 5, 6 ... other zones sharing frequencies with partial zones between zones 4, 7, 8 ... Area where the amount of interference from other zones 5 and 6 is less than or equal to an allowable value, 9... Radio base stations in partial zones.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Shuichi Shindo 1-235, Take, Yokosuka-shi Nippon Telegraph and Telephone Corporation Second Communication Network Laboratory (72) Inventor Shigeru Kozono 1-2356, Take, Yokosuka-shi Nippon Telegraph and Telephone (72) Inventor Akiho Sasaki 1-6-1, Uchisaiwaicho, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (56) References JP-A-58-63242 (JP, A) JP-A-62-82731 (JP, A) JP-A-62-101135 (JP, A) JP-B-44-1763 (JP, B1)

Claims (1)

(57) [Claims] 1. A zone configuration method in a mobile communication system having a small zone configuration in which a frequency to be used is defined for each zone and the defined frequency group is repeatedly allocated to each zone so as not to interfere with each other. A zone that is less susceptible to interference from another zone and that reuses a frequency group that does not interfere with its own zone and other zones.