8,305 research outputs found
A Study on the Integration of a High-Speed Flywheel as an Energy Storage Device in Hybrid Vehicles
The last couple of decades have seen the rise of the hybrid electric vehicle as a compromise between the outstanding specific energy of petrol fuels and its low-cost technology, and the zero tail-gate emissions of the electric vehicle. Despite this, considerable reductions in cost and further increases in fuel economy are needed for their widespread adoption.
An alternative low-cost energy storage technology for vehicles is the high-speed flywheel. The flywheel has important limitations that exclude it from being used as a primary energy source for vehicles, but its power characteristics and low-cost materials make it a powerful complement to a vehicle's primary propulsion system. This thesis presents an analysis on the integration of a high-speed flywheel for use as a secondary energy storage device in hybrid vehicles.
Unlike other energy storage technologies, the energy content of the flywheel has a direct impact on the velocity of transmission. This presents an important challenge, as it means that the flywheel must be able to rotate at a speed independent of the vehicle's velocity and therefore it must be coupled via a variable speed transmission. This thesis presents some practical ways in which to accomplish this in conventional road vehicles, namely with the use of a variator, a planetary gear set or with the use of a power-split continuously variable transmission. Fundamental analyses on the kinematic behaviour of these transmissions particularly as they pertain to flywheel powertrains are presented. Computer simulations were carried out to compare the performance of various transmissions, and the models developed are presented as well.
Finally the thesis also contains an investigation on the driving and road conditions that have the most beneficial effect on hybrid vehicle performance, with a particular emphasis on the effect that the road topography has on fuel economy and the significance of this
Composite Fading Models based on Inverse Gamma Shadowing: Theory and Validation
We introduce a general approach to characterize composite fading models based
on inverse gamma (IG) shadowing. We first determine to what extent the IG
distribution is an adequate choice for modeling shadow fading, by means of a
comprehensive test with field measurements and other distributions
conventionally used for this purpose. Then, we prove that the probability
density function and cumulative distribution function of any IG-based composite
fading model are directly expressed in terms of a Laplace-domain statistic of
the underlying fast fading model and, in some relevant cases, as a mixture of
wellknown state-of-the-art distributions. Also, exact and asymptotic
expressions for the outage probability are provided, which are valid for any
choice of baseline fading distribution. Finally, we exemplify our approach by
presenting several application examples for IG-based composite fading models,
for which their statistical characterization is directly obtained in a simple
form.Comment: This work has been submitted to the IEEE for publication. Copyright
may be transferred without notice, after which this version may no longer be
accessibl
The space of solutions to the Hessian one equation in the finitely punctured plane
We construct the space of solutions to the elliptic Monge-Ampere equation
det(D^2 u)=1 in the plane R^2 with n points removed. We show that, modulo
equiaffine transformations and for n>1, this space can be seen as an open
subset of R^{3n-4}, where the coordinates are described by the conformal
equivalence classes of once punctured bounded domains in the complex plane of
connectivity n-1. This approach actually provides a constructive procedure that
recovers all such solutions to the Monge-Ampere equation, and generalizes a
theorem by K. Jorgens.Comment: 14 pages, 3 figure
The Effect of Ethanol Production on Coarse Grains: New Price Relationships
For years, the U.S. price of grain sorghum has been settled as 95% of the price of corn. Nevertheless, the increasing demand for corn and grain sorghum in ethanol production might have changed that price relationship. In this study, we use cointegration and the vector autoregressive model with independent variable (VARX) to assess the relationship between the spot price of sorghum in several U.S. markets and corn’s futures market price during the period 1996–2008. The results indicate a price relationship between the price of sorghum in the Gulf ports, Kansas City, and Texas, and corn prices of 1.01, 0.99, and 0.99, respectively. These new relationships are noteworthy for producers and other stakeholders.causality test, cointegration, futures markets, VARX model, Agribusiness, Marketing,
Thinking Adaptive: Towards a Behaviours Virtual
In this paper we name some of the advantages of
virtual laboratories; and propose that a Behaviours
Virtual Laboratory should be useful for both biologists
and AI researchers, offering a new perspective for
understanding adaptive behaviour. We present our
development of a Behaviours Virtual Laboratory, which
at this stage is focused in action selection, and show
some experiments to illustrate the properties of our
proposal, which can be accessed via Internet
Cesaro mean distribution of group automata starting from measures with summable decay
Consider a finite Abelian group (G,+), with |G|=p^r, p a prime number, and F:
G^N -> G^N the cellular automaton given by {F(x)}_n= A x_n + B x_{n+1} for any
n in N, where A and B are integers relatively primes to p. We prove that if P
is a translation invariant probability measure on G^Z determining a chain with
complete connections and summable decay of correlations, then for any w=
(w_i:i<0) the Cesaro mean distribution of the time iterates of the automaton
with initial distribution P_w --the law P conditioned to w on the left of the
origin-- converges to the uniform product measure on G^N. The proof uses a
regeneration representation of P
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