Efficient signaling of rate matching patterns

What is claimed is: 1. A method implemented in a network node, the method comprising: indicating to a wireless device whether at least one resource element, RE, associated with a reference signal is one of available and not available for physical downlink shared channel, PDSCH-to-RE mapping, the at least one RE associated with the reference signal being at least one RE in a same orthogonal frequency division multiplex, OFDM, symbol as the reference signal; transmitting signaling according to the PDSCH-to-RE mapping, the PDSCH being one of mapped and not mapped to the at least one RE associated with the reference signal based on the indication, the reference signal being an NZP CSI-RS used as a tracking reference signal; if the PDSCH demodulation reference signal, DMRS, is quasi collocated, QCL, Type D with the reference signal, the at least one RE associated with the reference signal is available for the PDSCH-to-RE mapping; and if the PDSCH DMRS is not QCL Type D with the reference signal, the at least one RE associated with the reference signal is not available for the PDSCH-to-RE mapping. 2. The method of claim 1 , wherein transmitting signaling according to the PDSCH-to-RE mapping further comprises: transmitting the reference signal in the OFDM symbol, the PDSCH being mapped to the at least one RE in the same OFDM symbol as the reference signal if the indication indicates that the at least one RE associated with the reference signal is available for the PDSCH-to-RE mapping, and the PDSCH not being mapped to the at least one RE in the same OFDM symbol as the reference signal if the indication indicates that the at least one RE associated with the reference signal is not available for the PDSCH-to-RE mapping. 3. The method of claim 1 , further comprising: scheduling the PDSCH in resources that overlap resources for the reference signal including the at least one RE associated with the reference signal; and wherein transmitting signaling according to the PDSCH-to-RE mapping further comprises transmitting the PDSCH according to the PDSCH-to-RE mapping in which the scheduled PDSCH is one of mapped and not mapped to the at least one RE associated with the reference signal based on the indication. 4. A method implemented in a wireless device, the method comprising: receiving an indication from a network node, the indication indicating whether at least one resource element, RE, associated with a reference signal is one of available and not available for physical downlink shared channel, PDSCH-to-RE mapping, the at least one RE associated with the reference signal being at least one RE in a same orthogonal frequency division multiplex, OFDM, symbol as the reference signal; receiving a PDSCH based on the indication, the PDSCH being one of mapped and not mapped to the at least one RE associated with the reference signal based on the indication, the reference signal being an NZP CSI-RS used as a tracking reference signal; if the PDSCH demodulation reference signal, DMRS, is quasi collocated, QCL, Type D with the reference signal, the at least one RE associated with the reference signal is available for the PDSCH-to-RE mapping; and if the PDSCH DMRS is not QCL Type D with the reference signal, the at least one RE associated with the reference signal is not available for the PDSCH-to-RE mapping. 5. The method of claim 4 , wherein receiving the PDSCH based on the indication further comprises: decoding the PDSCH assuming that the PDSCH is mapped to the at least one RE in the same OFDM symbol as the reference signal if the indication indicates that the at least one RE associated with the reference signal is available for the PDSCH-to-RE mapping; and decoding the PDSCH assuming that the PDSCH is not mapped to the at least one RE in the same OFDM symbol as the reference signal if the indication indicates that the at least one RE associated with the reference signal is not available for the PDSCH-to-RE mapping. 6. The method of claim 4 , wherein receiving the PDSCH based on the indication further comprises: performing the PDSCH-to-RE mapping using rate-matching around at least one RE of the reference signal; and if the indication indicates that the at least one RE associated with the reference signal is not available for the PDSCH-to-RE mapping, additionally rate-matching around the at least one RE associated with the reference signal that is in the same OFDM symbol as the reference signal and in a frequency of the PDSCH. 7. The method of claim 4 , further comprising: receiving scheduling of the PDSCH in resources that overlap resources for the reference signal including the at least one RE associated with the reference signal; and wherein receiving the PDSCH based on the indication further comprises rate-matching the PDSCH according to the PDSCH-to-RE mapping in which the scheduled PDSCH is one of mapped and not mapped to the at least one RE associated with the reference signal based on the indication. 8. A network node configured to communicate with a wireless device, the network node comprising processing circuitry, the processing circuitry configured to cause the network node to: indicate to a wireless device whether at least one resource element, RE, associated with a reference signal is one of available and not available for physical downlink shared channel, PDSCH-to-RE mapping, the at least one RE associated with the reference signal being at least one RE in a same orthogonal frequency division multiplex, OFDM, symbol as the reference signal; transmit signaling according to the PDSCH-to-RE mapping, the PDSCH being one of mapped and not mapped to the at least one RE associated with the reference signal based on the indication, the reference signal being an NZP CSI-RS used as a tracking reference signal; if the PDSCH demodulation reference signal, DMRS, is quasi collocated, QCL, Type D with the reference signal, the at least one RE associated with the reference signal is available for the PDSCH-to-RE mapping; and if the PDSCH DMRS is not QCL Type D with the reference signal, the at least one RE associated with the reference signal is not available for the PDSCH-to-RE mapping. 9. The network node of claim 8 , wherein the processing circuitry is further configured to cause the network node to transmit signaling according to the PDSCH-to-RE mapping by being configured to: transmit the reference signal in the OFDM symbol, the PDSCH being mapped to the at least one RE in the same OFDM symbol as the reference signal if the indication indicates that the at least one RE associated with the reference signal is available for the PDSCH-to-RE mapping, and the PDSCH not being mapped to the at least one RE in the same OFDM symbol as the reference signal if the indication indicates that the at least one RE associated with the reference signal is not available for the PDSCH-to-RE mapping. 10. The network node of claim 8 , wherein the processing circuitry is further configured to cause the network node to: schedule the PDSCH in resources that overlap resources for the reference signal including the at least one RE associated with the reference signal; and transmit signaling according to the PDSCH-to-RE mapping by being configured to transmit the PDSCH according to the PDSCH-to-RE mapping in which the scheduled PDSCH is one of mapped and not mapped to the at least one RE associated with the reference signal based on the indication. 11. The network node of claim 8 , wherein the at least one RE is further associated with the reference signal by being in at least one resource block of the reference signal. 12. The network node of claim 8 , wherein the processing circuitry is further c