A new model for broadband waveguide to microstrip transition design

A new model is presented which permits the prediction of the resonant frequencies created by antipodal finline waveguide to microstrip transitions. The transition is modeled as a tapered transmission line in series with an infinite set of coupled resonant circuits. The resonant circuits are modeled as simple microwave resonant cavities of which the resonant frequencies are easily determined. The model is developed and the resonant frequencies determined for several different transitions. Experimental results are given to confirm the models

Crystal structure analysis of intermetallic compounds

Study concerns crystal structures and lattice parameters for a number of new intermetallic compounds. Crystal structure data have been collected on equiatomic compounds, formed between an element of the Sc, Ti, V, or Cr group and an element of the Co or Ni group. The data, obtained by conventional methods, are presented in an easily usable tabular form

Normal variations in the sense of reality.

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Conservation for Southern Pulp Mills

Everyone interested in forest conservation is aware of the action recently taken by the Pulp industry of the South through its own organization, the American Pulpwood Association. Not everyone, however, realizes that these conservation steps were conceived and taken by the industry itself

INVESTIGATING STRUCTURE AND PROTEIN-PROTEIN INTERACTIONS OF KEY POST-TYPE II PKS TAILORING ENZYMES

Type II polyketide synthase (PKS) produced natural products have proven to be an excellent source of pharmacologically relevant molecules due to their rich biological activities and chemical scaffolds. Type II-PKS manufactured polyketides share similar polycyclic aromatic backbones leaving their diversity to stem from various chemical additions and alterations facilitated by post-PKS tailoring enzymes. Evidence suggests that post-PKS tailoring enzymes form complexes in order to facilitate the highly orchestrated process of biosynthesis. Thus, protein-protein interactions between these enzymes must play crucial roles in their structures and functions. Despite the importance of these interactions little has been done to study them. In the mithramycin (MTM) biosynthetic pathway the Baeyer−Villiger monooxygenase (BVMO) MtmOIV and the ketoreductase MtmW form one such enzyme pair that catalyze the final two steps en route to the final product. MtmOIV oxidatively cleaves the fourth ring of the mithramycin intermediate premithramycin B (PreB) via a Baeyer−Villiger reaction, generating MTM’s characteristic tricyclic aglycone core and highly functionalized pentyl side chain at position 3. This Baeyer−Villiger reaction precedes spontaneous lactone ring opening, decarboxylation, and the final step of MTM biosynthesis, a reduction of the 4′- keto group catalyzed by the ketoreductase MtmW. Another example of co-dependent post-PKS tailoring enzymes from the gilvocarcin biosynthetic pathway is composed of GilM and GilR. These two enzymes form an unusual synergistic tailoring enzyme pair that does not function sequentially. GilM exhibits dual functionality by catalyzing the reduction of a quinone intermediate to a hydroquinone and stabilizes O-methylation and hemiacetal formation. GilM mediates its reductive catalysis through the aid of GilR that provides its covalently bound FADH(2) for the GilM reaction, through which FAD is regenerated for the next catalytic cycle. A few steps later, following glycosylation related events unique to each gilvocarcin derivative, GilR dehydrogenates the hemiacetal moiety created by GilM to establish the formation of a lactone and the final gilvocarcin chromophore. To achieve a better understanding of post-type II PKS tailoring enzymes and their protein-proteininteractions for the benefit of future combinatorial biosynthetic efforts two specific aims were devised. Specific aim 1 was to investigate the structure of MtmOIV and the role of active site residues in its catalytic mechanism. Specific aim 2 was to integrate the function of GilM and its protein-protein interactionswith GilR that lead to their synergistic activity and sharing of GilR’s bicovalently bound FAD moiety

Tracking Control for FES-Cycling based on Force Direction Efficiency with Antagonistic Bi-Articular Muscles

A functional electrical stimulation (FES)-based tracking controller is developed to enable cycling based on a strategy to yield force direction efficiency by exploiting antagonistic bi-articular muscles. Given the input redundancy naturally occurring among multiple muscle groups, the force direction at the pedal is explicitly determined as a means to improve the efficiency of cycling. A model of a stationary cycle and rider is developed as a closed-chain mechanism. A strategy is then developed to switch between muscle groups for improved efficiency based on the force direction of each muscle group. Stability of the developed controller is analyzed through Lyapunov-based methods.Comment: 8 pages, 4 figures, submitted to ACC201

Single-Photon Counting Detector Scalability for High Photon Efficiency Optical Communications Links

For high photon-efficiency deep space or low power optical communications links, such as the Orion Artemis-2 Optical Communications System (O2O) project, the received optical signal is attenuated to the extent that single- photon detectors are required. For direct-detection receivers operating at 1.55 m wavelength, single-photon detectors including Geiger-mode InGaAs avalanche photon diodes (APDs), and in particular superconducting nanowire single-photon detectors (SNSPDs) offer the highest sensitivity and fastest detection speeds. However, these photon detectors exhibit a recovery time between registered input pulses, effectively reducing the detection efficiency over the recovery interval, resulting in missed photon detections, reduced count rate, and ultimately limiting the achievable data rate. A method to overcome this limitation is to divide the received optical signal into multiple detectors in parallel. Here we analyze this approach for a receiver designed to receive a high photon efficiency serially concatenated pulse position modulation (SCPPM) input waveform. From measured count rate and efficiency data using commercial SNSPDs, we apply a model from which we determine the effective detection efficiency, or blocking loss, for different input signal rates. We analyze the scalability of adding detectors in parallel for different modulation orders and background levels to achieve desired data rates. Finally we show tradeoffs between the number of detectors and the required received optical power, useful for real link design considerations

Stationary Cycling Induced by Switched Functional Electrical Stimulation Control

Functional electrical stimulation (FES) is used to activate the dysfunctional lower limb muscles of individuals with neuromuscular disorders to produce cycling as a means of exercise and rehabilitation. However, FES-cycling is still metabolically inefficient and yields low power output at the cycle crank compared to able-bodied cycling. Previous literature suggests that these problems are symptomatic of poor muscle control and non-physiological muscle fiber recruitment. The latter is a known problem with FES in general, and the former motivates investigation of better control methods for FES-cycling.In this paper, a stimulation pattern for quadriceps femoris-only FES-cycling is derived based on the effectiveness of knee joint torque in producing forward pedaling. In addition, a switched sliding-mode controller is designed for the uncertain, nonlinear cycle-rider system with autonomous state-dependent switching. The switched controller yields ultimately bounded tracking of a desired trajectory in the presence of an unknown, time-varying, bounded disturbance, provided a reverse dwell-time condition is satisfied by appropriate choice of the control gains and a sufficient desired cadence. Stability is derived through Lyapunov methods for switched systems, and experimental results demonstrate the performance of the switched control system under typical cycling conditions.Comment: 8 pages, 3 figures, submitted to ACC 201