Resource allocation for downlink transmission to at least two wireless communication devices

The invention claimed is: 1. A method for resource allocation for downlink transmission to at least two wireless communication devices in a wireless communication network, wherein simultaneous transmission to the wireless communication devices is allowed on one or more channels with at least two supported modulation alphabets of different sizes, each channel being defined by a set, called resource unit, of one or more subcarriers, wherein the method comprises: obtaining, for each of the wireless communication devices, channel feedback information for each modulation alphabet the wireless communication device supports and for each resource unit on which the wireless communication device is allowed to receive a transmission, such that, for each resource unit on which the wireless communication device is allowed to receive, channel feedback information for each of two or more modulation alphabets is obtained; and selecting, from a number of possible assignments of the wireless communication devices to different resource units and different modulation alphabets, a resource allocation based on the channel feedback information including an assignment of the wireless communication devices to at least one resource unit and at least one modulation alphabet among those assignments providing the highest total downlink throughput for the wireless communication devices, wherein the step of selecting an assignment is based on maximization of the total downlink throughput for the wireless communication devices to find an optimal assignment of the wireless communication devices to at least one resource unit and at least one modulation alphabet, and wherein the maximization is defined as: wherein index i (1<=i<=1) indicates user i where l is the total number of users; wherein index j (1<=j<=J) indicates resource unit j with J being the total number of resource units available; wherein index k (1<=k<=K) indicates number of wireless devices scheduled on a resource unit with K being the maximum allowed value; wherein index l (1<=1<=J) indicates the total number of resource units actually used for the downlink transmission; wherein x i,j,k,l is a Boolean output variable, where x i,j,k,l =1 indicates that wireless communication device i is allocated on resource unit j, with modulation k, along with k−1 other wireless communication devices, when a total of 1 resource units are used in the downlink; and wherein y j,k,l is a Boolean output variable, where y j,k,l =1 indicates that resource unit j is used with modulation k, when a total of l channels are used in the downlink; and wherein F i,j,k,l is a function representing the rate that wireless communication device i will receive on resource unit j with modulation k when a total of l resource units are used in the downlink, wherein the maximization is subject to the following constraints: for all combinations of j, k and l (1≤j≤J, 1≤k≤K, 1≤l≤J) x i,j,k,l , y i,j,k,l ϵ{0,1}, where w 1 is an auxiliary optimization variable. 2. The method of claim 1 , wherein the channel feedback information, for each of the wireless communication devices, is representative of an effective Signal-to-Noise Ratio (SNR) for each supported modulation alphabet and for each resource unit assigned to the wireless communication device. 3. The method of claim 1 , wherein the step of selecting an assignment includes selecting a total number of resource units, including selecting specific resource unit or units, to be used for the transmission, and also selecting which modulation alphabet(s) to be used for the transmission. 4. The method of claim 1 , wherein the step of selecting an assignment includes one of the following: selecting an assignment, when this assignment maximizes the downlink throughput, in which the information is to be transmitted on one resource unit using so-called multi-carrier modulation, with all the transmit power for the downlink transmission assigned to this resource unit; selecting an assignment, when this assignment maximizes the downlink throughput, in which the information is to be transmitted on two or more resource units using so-called multi-carrier modulation, with the transmit power for the downlink transmission distributed between the resource units; and selecting an assignment, when this assignment maximizes the downlink throughput, in which each wireless communication device is assigned to its own resource unit, without using so-called multi-carrier modulation, with the transmit power for the downlink transmission distributed between the resource units. 5. The method of claim 1 , wherein the step of obtaining, for each of the wireless communication devices, channel feedback information comprises the step of extracting the channel feedback information from feedback signaling received from the wireless communication device. 6. The method of claim 1 , wherein the wireless communication network allows simultaneous downlink transmission to the wireless communication devices on one or more channels with at least two supported modulation alphabets of different sizes based on Orthogonal Frequency Division Multiple Access (OFDMA) and multi-carrier modulation. 7. The method of claim 1 , wherein the wireless communication network is a wireless network adapted for Long Range Low Power (LRLP) communications. 8. The method of claim 1 , wherein at least one channel is defined by a set, called resource unit, of at least two subcarriers. 9. The method of claim 1 , wherein the method is performed by a network device. 10. An apparatus configured to perform resource allocation for downlink transmission to at least two wireless communication devices in a wireless communication network, wherein simultaneous transmission to the wireless communication devices is allowed on one or more channels with at least two supported modulation alphabets of different sizes, each channel being defined by a set, called resource unit, of one or more subcarriers, wherein the apparatus comprises: processing circuitry; and a memory comprising instructions that, when executed by the processing circuitry, cause the processing circuitry to: obtain, for each of the wireless communication devices, channel feedback information for each modulation alphabet the wireless communication device supports and for each resource unit on which the wireless communication device is allowed to receive a transmission, such that, for each resource unit on which the wireless communication device is allowed to receive, channel feedback information for each of two or more modulation alphabets is obtained; and select, from a number of possible assignments of the wireless communication devices to different resource units and different modulation alphabets, a resource allocation based on the channel feedback information including an assignment of the wireless communication devices to at least one resource unit and at least one modulation alphabet among those assignments providing the highest total downlink throughput for the wireless communication devices, wherein the memory comprises instructions that cause the processing circuitry to select an assignment based on maximization of the total downlink throughput for the wireless communication devices to find an optimal assignment of the wireless communication devices to at least one resource unit and at least one modulation alphabet, and wherein the memory comprises instructions that cause the processing circuitry to perform the maximization as follows: wherein index i (1<=i<=1) indicates user i where I is the total number of users; wherein index j (1<=j<=J) indicates resource unit j with J being the total number of resource units available; wherein index k (1<=k<=K) indicates number of