Improving communication efficiency

1 - 34 . (canceled) 35 . An apparatus, comprising: at least one processor and at least one memory including a computer program code, wherein the at least one memory and the computer program code are configured, with the at least one processor, to cause the apparatus to perform operations comprising: setting length for each of the at least one channel reservation window such that each channel reservation window comprises a plurality of subframes; dividing the length of each channel reservation window into a transmission part and an idle part, wherein the idle part consists of one or more symbols in one sub-frame; maximizing, at a symbol level accuracy, the length of the transmission part such that a ratio between the length of the idle part and the length of the transmission part fulfils a predetermined criterion; and concatenating the transmission part and the idle part so as to form the channel reservation window. 36 . The apparatus of claim 35 , wherein the apparatus is further caused to perform operations comprising: dividing the transmission part into a first and a second sub-block, wherein length of the first sub-block corresponds to the length of the channel reservation window minus one subframe and wherein the idle part and the second sub-block are comprised in the same sub-frame; and maximizing, at the symbol level accuracy, the length of the second sub-block within the subframe such that the ratio between the length of the idle part and the length of the transmission part fulfils the predetermined criterion. 37 . The apparatus of claim 35 , wherein the idle part and the second sub-block are comprised in the last sub-frame of the channel reservation window. 38 . The apparatus of claim 35 , wherein the predetermined criterion requires that the length of the idle part is at least a certain percentage of the length of the transmission part. 39 . The apparatus of claim 35 , wherein the idle part accommodates a clear channel assessment-process. 40 . The apparatus of claim 35 , wherein the apparatus is further caused to perform operations comprising: time positioning the transmission part with respect to a predetermined reference. 41 . The apparatus of claim 40 , wherein the reference comprises a radio frame transmitted on a primary component carrier. 42 . The apparatus of claim 41 , wherein the apparatus is further caused to perform operations comprising: time aligning the subframes of the radio frame transmitted on the primary component carrier and the subframes of the radio frame transmitted on the secondary component carrier according to the channel reservation window. 43 . The apparatus of claim 41 , wherein the apparatus is further caused to perform operations comprising: applying a timing offset between the beginning of a radio frame transmitted on the primary component carrier and the beginning of the radio frame transmitted on the secondary component carrier according to the channel reservation window. 44 . The apparatus of claim 43 , wherein the applied timing offset is different than a corresponding timing offset applied in a neighbouring cell. 45 . The apparatus of claim 35 , wherein the apparatus participates in carrier aggregation and wherein the defined at least one channel reservation window is applied for transmissions on a secondary cell on an unlicensed band, and a primary cell of the carrier aggregation operates on a licensed band. 46 . The apparatus of claim 45 , wherein data transmission is performed on the secondary cell and acknowledgement feedback for the data transmission is obtained on the primary cell. 47 . The apparatus of claim 35 , wherein the apparatus is further caused to perform operations comprising: selecting one of a plurality of channel reservation windows having different lengths for data transmission. 48 . The apparatus claim 47 , wherein the apparatus is further caused to perform operations comprising: indicating the selected channel reservation window to a target user terminal; and performing the data transmission in the selected channel reservation window to the user terminal. 49 . The apparatus of claim 35 , wherein a radio frame to be transmitted and the defined channel reservation window have different lengths. 50 . The apparatus of claim 35 , wherein the apparatus is further caused to perform operations comprising: exchanging channel reservation window usage information with at least one neighbouring network node. 51 . A method comprising: setting, by a radio device, length for each of the at least one channel reservation window such that each channel reservation window comprises a plurality of subframes; dividing the length of each channel reservation window into a transmission part and an idle part, wherein the idle part consists of one or more symbols in one sub-frame; maximizing, at a symbol level accuracy, the length of the transmission part such that a ratio between the length of the idle part and the length of the transmission part fulfils a predetermined criterion; and concatenating the transmission part and the idle part so as to form the channel reservation window. 52 . The method of claim 51 , further comprising: dividing the transmission part into a first and a second sub-block, wherein length of the first sub-block corresponds to the length of the channel reservation window minus one subframe and wherein the idle part and the second sub-block are comprised in the same sub-frame; and maximizing, at the symbol level accuracy, the length of the second sub-block within the subframe such that the ratio between the length of the idle part and the length of the transmission part fulfils the predetermined criterion. 53 . The method of claim 51 , wherein the idle part and the second sub-block are comprised in the last sub-frame of the channel reservation window. 54 . The method of any of claim 51 , wherein the idle part accommodates a clear channel assessment-process.