Synergetic transmitting system for digital broadcast SFN and method thereof
First Claim
1. A cooperative transmission system applied in a digital broadcasting single frequency network, comprising:
- a first double-layer cooperative transmission structure with same frequency, and a second double-layer cooperative transmission structure with same frequency, which are vertically aggregated together;
wherein each of the double-layer cooperative transmission structures with the same frequency comprises;
a main transmission layer, comprising several main transmitters having the same transmitting frequency;
an auxiliary transmission layer, comprising several auxiliary transmitters having the same transmitting frequency;
wherein, in each of the double-layer cooperative transmission structures with the same frequency, a coverage range of electromagnetic wave transmitted by the main transmitters is larger than the coverage range of electromagnetic wave transmitted by the auxiliary transmitters; and
there is an electromagnetic wave transmitted by at least one of the auxiliary transmitters in the coverage range of the electromagnetic wave transmitted by one main transmitter;
the electromagnetic wave transmitted by the main transmitters and the electromagnetic wave transmitted by the auxiliary transmitters have the same frequency, carry the same information symbols and meet a synchronization relationship required for avoiding inter-symbol interference;
the electromagnetic wave transmitted by the main transmitters in the first double-layer cooperative transmission structure with the same frequency and the electromagnetic wave transmitted by the main transmitters in the second double-layer cooperative transmission structure with the same frequency have different frequencies.
3 Assignments
0 Petitions
Accused Products
Abstract
A cooperative transmission system for single frequency digital broadcasting network and method thereof are disclosed, said system includes a first double-layer cooperative transmission structure with same frequency and a second double-layer cooperative transmission structure with same frequency, which are vertically aggregated; wherein each of the double-layer cooperative transmission structures with same frequency is made up of a main transmission layer including several main transmitters with same transmitting frequency and an auxiliary transmission layer including several auxiliary transmitters with same transmitting frequency; the electromagnetic wave transmitted by the main transmitters in the first double-layer cooperative transmission structure with same frequency and the electromagnetic wave transmitted by the main transmitters in the second double-layer cooperative transmission structure with same frequency have different frequencies. The present invention makes up the disadvantage of the single frequency network, and can greatly improve the spectrum efficiency of broadcasting channel, the coverage (especially the indoor coverage) of broadcasting signal and the effect of mobile receiving of broadcasting signal.
8 Citations
15 Claims
-
1. A cooperative transmission system applied in a digital broadcasting single frequency network, comprising:
-
a first double-layer cooperative transmission structure with same frequency, and a second double-layer cooperative transmission structure with same frequency, which are vertically aggregated together; wherein each of the double-layer cooperative transmission structures with the same frequency comprises; a main transmission layer, comprising several main transmitters having the same transmitting frequency;
an auxiliary transmission layer, comprising several auxiliary transmitters having the same transmitting frequency;
wherein, in each of the double-layer cooperative transmission structures with the same frequency, a coverage range of electromagnetic wave transmitted by the main transmitters is larger than the coverage range of electromagnetic wave transmitted by the auxiliary transmitters; and
there is an electromagnetic wave transmitted by at least one of the auxiliary transmitters in the coverage range of the electromagnetic wave transmitted by one main transmitter;
the electromagnetic wave transmitted by the main transmitters and the electromagnetic wave transmitted by the auxiliary transmitters have the same frequency, carry the same information symbols and meet a synchronization relationship required for avoiding inter-symbol interference;the electromagnetic wave transmitted by the main transmitters in the first double-layer cooperative transmission structure with the same frequency and the electromagnetic wave transmitted by the main transmitters in the second double-layer cooperative transmission structure with the same frequency have different frequencies. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
-
-
14. A synchronization method for a cooperative transmission system applied in a digital broadcasting single frequency network, wherein the cooperative transmission system includes:
- a first double-layer cooperative transmission structure with same frequency, and a second double-layer cooperative transmission structure with same frequency, which are vertically aggregated together, wherein each of the double-layer cooperative transmission structures with the same frequency comprises;
(a) a main transmission layer, comprising several main transmitters having the same transmitting frequency;
(b) an auxiliary transmission layer, comprising several auxiliary transmitters having the same transmitting frequency;
wherein, in each of the double-layer cooperative transmission structures with the same frequency, a coverage range of electromagnetic wave transmitted by the main transmitters is larger than the coverage range of electromagnetic wave transmitted by the auxiliary transmitters; and
there is an electromagnetic wave transmitted by at least one of the auxiliary transmitters in the coverage range of the electromagnetic wave transmitted by one main transmitter;
the electromagnetic wave transmitted by the main transmitters and the electromagnetic wave transmitted by the auxiliary transmitters have the same frequency, carry the same information symbols and meet a synchronization relationship required for avoiding inter-symbol interference; and
wherein the electromagnetic wave transmitted by the main transmitters in the first double-layer cooperative transmission structure with the same frequency and the electromagnetic wave transmitted by the main transmitters in the second double-layer cooperative transmission structure with the same frequency have different frequencies, and wherein the synchronization method is for achieving the synchronization relationship between the main transmitters and the auxiliary transmitters in the double-layer cooperative transmission structure with the same frequency, the synchronization method comprising the steps of;(1) the auxiliary transmitter obtaining a protection interval Δ
used by the main transmission layer, a transmitting time tR of the electromagnetic wave corresponding to the coverage radius of the auxiliary transmitter, and determining an error ε
of a transmission time point of the auxiliary transmitter;(2) comparing the protection interval Δ
with the transmission time tR, and if Δ
>
>
tR, then proceeding to step (6), otherwise, proceeding to step (3);(3) determining whether the auxiliary transmitter applies omni-directional antenna or not, and if no, then proceeding to step (4), if yes, proceeding to step (5); (4) obtaining azimuth angle θ
of a propagation direction of the electromagnetic wave transmitted by the main transmitter and azimuth angle η
of a main-lobe direction of the antenna of the auxiliary transmitter, if the angle between θ and
η
is larger than 90°
, then proceeding to step (5), otherwise, proceeding to step (6);(5) obtaining an arrival time t0 of a signal transmitted by the main transmitter which the auxiliary transmitter cooperates with in the main transmission layer, calculating a time advance β
of the transmission time of the auxiliary transmitter based on t0, determining that the auxiliary transmitter synchronically transmits a signal with its cooperative main transmitter at the time point t0-β and
within an error range ±
ε
; and(6) obtaining the arrival time t0 of the signal transmitted by the main transmitter which the auxiliary transmitter cooperates with in the main transmission layer, and determining that the auxiliary transmitter synchronically transmits a signal with its cooperative main transmitter at the time point t0 and within an error range ±
ε
.
- a first double-layer cooperative transmission structure with same frequency, and a second double-layer cooperative transmission structure with same frequency, which are vertically aggregated together, wherein each of the double-layer cooperative transmission structures with the same frequency comprises;
-
15. A method for determining power for a cooperative transmission system applied in a digital broadcasting single frequency network, wherein the cooperative transmission system includes:
- a first double-layer cooperative transmission structure with same frequency, and a second double-layer cooperative transmission structure with same frequency, which are vertically aggregated together, wherein each of the double-layer cooperative transmission structures with the same frequency comprises;
(a) a main transmission layer, comprising several main transmitters having the same transmitting frequency;
(b) an auxiliary transmission layer, comprising several auxiliary transmitters having the same transmitting frequency;
wherein, in each of the double-layer cooperative transmission structures with the same frequency, a coverage range of electromagnetic wave transmitted by the main transmitters is larger than the coverage range of electromagnetic wave transmitted by the auxiliary transmitters; and
there is an electromagnetic wave transmitted by at least one of the auxiliary transmitters in the coverage range of the electromagnetic wave transmitted by one main transmitter;
the electromagnetic wave transmitted by the main transmitters and the electromagnetic wave transmitted by the auxiliary transmitters have the same frequency, carry the same information symbols and meet a synchronization relationship required for avoiding inter-symbol interference; and
wherein the electromagnetic wave transmitted by the main transmitters in the first double-layer cooperative transmission structure with the same frequency and the electromagnetic wave transmitted by the main transmitters in the second double-layer cooperative transmission structure with the same frequency have different frequencies, and wherein the method for determining the power determines a power relationship between the main transmitters and the auxiliary transmitters in the double-layer cooperative transmission structure with the same frequency, the method for determining the power comprising the steps of;(A) the auxiliary transmitter obtaining a set of measured values {P1˜
Pk} of field intensities transmitted by its cooperative main transmitters at different locations, and calculating an estimated value P(x,y) of a distribution of a field intensity transmitted by the main transmitters adjacent to the auxiliary transmitter;(B) determining if all values of P(x,y) are larger than a predetermined high power threshold Thr_H or not, if yes, directly determine that a transmit power of the auxiliary transmitter is 0, otherwise, proceeding to (C); (C) determining if all values of P(x,y) are less than a predetermined low power threshold Thr_L or not, if yes, the auxiliary transmitter independently determining its own transmitting power, otherwise, proceeding to (D); (D) determining if the auxiliary transmitter applies omni-directional antenna or not, if yes, using a transmitting power P_om required by the transmission of omni-directional antenna as the transmitting power, otherwise, proceeding to step (E); (E) obtaining the azimuth angle θ
of the propagation direction of the electromagnetic wave transmitted by the main transmitter and the azimuth angle η
of a main-lobe direction of an antenna of the auxiliary transmitter, if the angle between θ and
η
is less than 90°
, proceeding to step (F), otherwise, proceeding to step (G);(F) determining that in most areas of the sector covered by the auxiliary transmitter, a power value P_sec_H with which the intensity of the electromagnetic wave transmitted is higher than the intensity of the electromagnetic wave of the main transmitter is used as the transmitting power; and (G) determining that in most areas of the sector covered by the auxiliary transmitter, the power value P_sec_L with which the intensity of the electromagnetic wave transmitted is lower than the intensity of the electromagnetic wave of the main transmitter is used as the transmitting power.
- a first double-layer cooperative transmission structure with same frequency, and a second double-layer cooperative transmission structure with same frequency, which are vertically aggregated together, wherein each of the double-layer cooperative transmission structures with the same frequency comprises;
Specification