Polarization. Antenna pattern/tabulation of the pattern Azimuth of the maximum antenna gain Bandwidth and emission designation
Polarization. Administrations were free to choose the polarization to be used in their countries1 . Polarization discrimination was not taken into account in the planning procedure, except in specific cases with the agreement of affected administrations. In such cases, a value of 10 dB was used for orthogonal polarization discrimination.
Polarization. No account was taken of polarization differences between the broadcasting and the aeronautical radionavigation signals except in special cases (e.g. circular polarization of the broadcasting signal). The interfering signals were assumed to have the same polarization (vertical or horizontal) as the navigation system. If, instead, the broadcasting signal has a different polarization, there is in theory some reduction of received interfering signal levels, but it was agreed not to make any allowance. In cases, however, where an equal power in the other plane of polarization is added at the transmitter (e.g. circular polarization), an allowance was made by adding 1 dB to the effective radiated power of the polarization component in the same plane as that used by the navigation system.
Polarization. The proposed 7D Cinema should work with linear polarized system for a good 3d stereoscopic image.
Polarization. (Continued) A unit - Tx horizontal, Rx vertical
Polarization. The Gateway Transmitter will transmit using either right hand circular polarization of linear polarization. If circular polarization is used the antenna axial ratio shall be [CONFIDENTIAL TREATMENT] dB or less over all azimuth angles and off-boresight angles between [CONFIDENTIAL TREATMENT] and [CONFIDENTIAL TREATMENT] degrees.
Polarization. The Subscriber Receiver will receive using either left hand or right hand circular polarization. The axial ratio of the antenna shall be less than or equal to [CONFIDENTIAL TREATMENT] dB over all azimuth angles and off-boresight angles between [CONFIDENTIAL TREATMENT] and [CONFIDENTIAL TREATMENT] degrees.
Polarization. Horizontal polarization shall be used.
Polarization. A more abstract model, not based on the PI3K / PTEN system is the balanced in- activation model [59]. This model is better able to explain the switch like behavior, leading to absence of activation at the anterior that is seen in many signaling compo- nents. It does so by adding a component that is fast diffusing in the cytosol ensuring its concentration is equal throughout the cell. This cytosolic component is inhibiting signaling and created at an equal rate as the activating membrane localized compo- nent. In a gradient this generates a situation in which at the posterior signaling is completely blocked but at the anterior it is not. The result is a switch like behavior that is also capable of quickly adapting to changing gradients. Interestingly, the re- quired molecules and their characteristics correspond nicely to the cAR1 / G protein system. An important assumption is that Gβγ has an inhibitory function and is able to diffuse in the cytosol, the latter at least, seems to be very well possible [22].
Polarization. In figure 5 the antenna-based spherical coordinate system along with an exemplary antenna P10011 structure is shown. The pictured vector H→ can either be understood as the VEL at a certain point in time H→ (t = ti), or at a given frequency H→ (ω = ωj). In the latter case the components of H→ complex functions: are H→ = →eθ Hθ +→eφ Hφ , (3.7) = →eθ |Hθ |eiϕHθ +→eφ |Hφ |eiϕHφ . (3.8) At a specific frequency the VEL in eq. (3.7) resembles a Xxxxx vector [30] which is commonly used to describe the polarization of light. Of special interest is the phase difference between the two components: ∆ϕH = ϕHφ −ϕHθ . (3.9) Z Y X 2012